id	sid	tid	token	lemma	pos
work_dqud2adhprei3jnj4zdro365pa	1	1	First	first	JJ
work_dqud2adhprei3jnj4zdro365pa	1	2	principles	principle	NNS
work_dqud2adhprei3jnj4zdro365pa	1	3	study	study	NN
work_dqud2adhprei3jnj4zdro365pa	1	4	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	5	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	1	6	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	1	7	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	1	8	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	9	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	1	10	yellow	yellow	NN
work_dqud2adhprei3jnj4zdro365pa	1	11	:	:	:
work_dqud2adhprei3jnj4zdro365pa	1	12	Role	role	NN
work_dqud2adhprei3jnj4zdro365pa	1	13	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	14	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	1	15	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	1	16	AIP	AIP	NNP
work_dqud2adhprei3jnj4zdro365pa	1	17	ADVANCES	ADVANCES	NNP
work_dqud2adhprei3jnj4zdro365pa	1	18	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	1	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	20	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	1	21	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	1	22	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	1	23	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	1	24	First	first	JJ
work_dqud2adhprei3jnj4zdro365pa	1	25	principles	principle	NNS
work_dqud2adhprei3jnj4zdro365pa	1	26	study	study	NN
work_dqud2adhprei3jnj4zdro365pa	1	27	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	28	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	1	29	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	1	30	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	1	31	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	32	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	1	33	yellow	yellow	NN
work_dqud2adhprei3jnj4zdro365pa	1	34	:	:	:
work_dqud2adhprei3jnj4zdro365pa	1	35	Role	role	NN
work_dqud2adhprei3jnj4zdro365pa	1	36	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	37	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	1	38	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	1	39	Laura	Laura	NNP
work_dqud2adhprei3jnj4zdro365pa	1	40	Giacopetti,1,2,a	Giacopetti,1,2,a	NNP
work_dqud2adhprei3jnj4zdro365pa	1	41	Austin	Austin	NNP
work_dqud2adhprei3jnj4zdro365pa	1	42	Nevin,3,b	Nevin,3,b	NNP
work_dqud2adhprei3jnj4zdro365pa	1	43	Daniela	Daniela	NNP
work_dqud2adhprei3jnj4zdro365pa	1	44	Comelli,4,c	Comelli,4,c	NNP
work_dqud2adhprei3jnj4zdro365pa	1	45	Gianluca	Gianluca	NNP
work_dqud2adhprei3jnj4zdro365pa	1	46	Valentini,4,d	Valentini,4,d	VBZ
work_dqud2adhprei3jnj4zdro365pa	1	47	Marco	Marco	NNP
work_dqud2adhprei3jnj4zdro365pa	1	48	Buongiorno	Buongiorno	NNP
work_dqud2adhprei3jnj4zdro365pa	1	49	Nardelli,5,e	Nardelli,5,e	NNP
work_dqud2adhprei3jnj4zdro365pa	1	50	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	1	51	Alessandra	Alessandra	NNP
work_dqud2adhprei3jnj4zdro365pa	1	52	Satta1,f	Satta1,f	NNP
work_dqud2adhprei3jnj4zdro365pa	1	53	1CNR	1CNR	NNP
work_dqud2adhprei3jnj4zdro365pa	1	54	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	1	55	IOM	IOM	NNP
work_dqud2adhprei3jnj4zdro365pa	1	56	Cagliari	Cagliari	NNP
work_dqud2adhprei3jnj4zdro365pa	1	57	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	58	c	c	NN
work_dqud2adhprei3jnj4zdro365pa	1	59	/	/	SYM
work_dqud2adhprei3jnj4zdro365pa	1	60	o	o	NN
work_dqud2adhprei3jnj4zdro365pa	1	61	Dipartimento	Dipartimento	NNP
work_dqud2adhprei3jnj4zdro365pa	1	62	di	di	NNP
work_dqud2adhprei3jnj4zdro365pa	1	63	Fisica	Fisica	NNP
work_dqud2adhprei3jnj4zdro365pa	1	64	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	65	Università	Università	NNP
work_dqud2adhprei3jnj4zdro365pa	1	66	di	di	NNP
work_dqud2adhprei3jnj4zdro365pa	1	67	Cagliari	Cagliari	NNP
work_dqud2adhprei3jnj4zdro365pa	1	68	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	69	Cittadella	Cittadella	NNP
work_dqud2adhprei3jnj4zdro365pa	1	70	Universitaria	Universitaria	NNP
work_dqud2adhprei3jnj4zdro365pa	1	71	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	72	09042	09042	CD
work_dqud2adhprei3jnj4zdro365pa	1	73	Monserrato	Monserrato	NNP
work_dqud2adhprei3jnj4zdro365pa	1	74	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	75	Italy	Italy	NNP
work_dqud2adhprei3jnj4zdro365pa	1	76	2Dipartimento	2dipartimento	CD
work_dqud2adhprei3jnj4zdro365pa	1	77	di	di	NNP
work_dqud2adhprei3jnj4zdro365pa	1	78	Scienze	Scienze	NNP
work_dqud2adhprei3jnj4zdro365pa	1	79	Chimiche	Chimiche	NNP
work_dqud2adhprei3jnj4zdro365pa	1	80	e	e	NNP
work_dqud2adhprei3jnj4zdro365pa	1	81	Geologiche	Geologiche	NNP
work_dqud2adhprei3jnj4zdro365pa	1	82	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	83	Università	Università	NNP
work_dqud2adhprei3jnj4zdro365pa	1	84	di	di	NNP
work_dqud2adhprei3jnj4zdro365pa	1	85	Cagliari	Cagliari	NNP
work_dqud2adhprei3jnj4zdro365pa	1	86	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	87	Cittadella	Cittadella	NNP
work_dqud2adhprei3jnj4zdro365pa	1	88	Universitaria	Universitaria	NNP
work_dqud2adhprei3jnj4zdro365pa	1	89	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	90	09042	09042	CD
work_dqud2adhprei3jnj4zdro365pa	1	91	Monserrato	Monserrato	NNP
work_dqud2adhprei3jnj4zdro365pa	1	92	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	93	Italy	Italy	NNP
work_dqud2adhprei3jnj4zdro365pa	1	94	3CNR	3CNR	NNP
work_dqud2adhprei3jnj4zdro365pa	1	95	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	1	96	IFN	IFN	NNP
work_dqud2adhprei3jnj4zdro365pa	1	97	Milano	Milano	NNP
work_dqud2adhprei3jnj4zdro365pa	1	98	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	99	Piazza	Piazza	NNP
work_dqud2adhprei3jnj4zdro365pa	1	100	Leonardo	Leonardo	NNP
work_dqud2adhprei3jnj4zdro365pa	1	101	da	da	NNP
work_dqud2adhprei3jnj4zdro365pa	1	102	Vinci	Vinci	NNP
work_dqud2adhprei3jnj4zdro365pa	1	103	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	104	20133	20133	CD
work_dqud2adhprei3jnj4zdro365pa	1	105	Milano	Milano	NNP
work_dqud2adhprei3jnj4zdro365pa	1	106	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	107	Italy	Italy	NNP
work_dqud2adhprei3jnj4zdro365pa	1	108	4Dipartimento	4Dipartimento	NNP
work_dqud2adhprei3jnj4zdro365pa	1	109	di	di	NNP
work_dqud2adhprei3jnj4zdro365pa	1	110	Fisica	Fisica	NNP
work_dqud2adhprei3jnj4zdro365pa	1	111	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	112	Politecnico	Politecnico	NNP
work_dqud2adhprei3jnj4zdro365pa	1	113	di	di	NNP
work_dqud2adhprei3jnj4zdro365pa	1	114	Milano	Milano	NNP
work_dqud2adhprei3jnj4zdro365pa	1	115	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	116	Piazza	Piazza	NNP
work_dqud2adhprei3jnj4zdro365pa	1	117	Leonardo	Leonardo	NNP
work_dqud2adhprei3jnj4zdro365pa	1	118	da	da	NNP
work_dqud2adhprei3jnj4zdro365pa	1	119	Vinci	Vinci	NNP
work_dqud2adhprei3jnj4zdro365pa	1	120	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	121	20133	20133	CD
work_dqud2adhprei3jnj4zdro365pa	1	122	Milano	Milano	NNP
work_dqud2adhprei3jnj4zdro365pa	1	123	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	124	Italy	Italy	NNP
work_dqud2adhprei3jnj4zdro365pa	1	125	5Department	5Department	NNP
work_dqud2adhprei3jnj4zdro365pa	1	126	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	127	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	1	128	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	129	University	University	NNP
work_dqud2adhprei3jnj4zdro365pa	1	130	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	131	North	North	NNP
work_dqud2adhprei3jnj4zdro365pa	1	132	Texas	Texas	NNP
work_dqud2adhprei3jnj4zdro365pa	1	133	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	134	Denton	Denton	NNP
work_dqud2adhprei3jnj4zdro365pa	1	135	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	136	Texas	Texas	NNP
work_dqud2adhprei3jnj4zdro365pa	1	137	76203	76203	CD
work_dqud2adhprei3jnj4zdro365pa	1	138	,	,	,
work_dqud2adhprei3jnj4zdro365pa	1	139	USA	USA	NNP
work_dqud2adhprei3jnj4zdro365pa	1	140	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	1	141	Received	receive	VBN
work_dqud2adhprei3jnj4zdro365pa	1	142	7	7	CD
work_dqud2adhprei3jnj4zdro365pa	1	143	December	December	NNP
work_dqud2adhprei3jnj4zdro365pa	1	144	2017	2017	CD
work_dqud2adhprei3jnj4zdro365pa	1	145	;	;	:
work_dqud2adhprei3jnj4zdro365pa	1	146	accepted	accept	VBD
work_dqud2adhprei3jnj4zdro365pa	1	147	18	18	CD
work_dqud2adhprei3jnj4zdro365pa	1	148	May	May	NNP
work_dqud2adhprei3jnj4zdro365pa	1	149	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	1	150	;	;	:
work_dqud2adhprei3jnj4zdro365pa	1	151	published	publish	VBN
work_dqud2adhprei3jnj4zdro365pa	1	152	online	online	JJ
work_dqud2adhprei3jnj4zdro365pa	1	153	1	1	CD
work_dqud2adhprei3jnj4zdro365pa	1	154	June	June	NNP
work_dqud2adhprei3jnj4zdro365pa	1	155	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	1	156	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	1	157	We	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	1	158	study	study	VBP
work_dqud2adhprei3jnj4zdro365pa	1	159	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	1	160	role	role	NN
work_dqud2adhprei3jnj4zdro365pa	1	161	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	162	structural	structural	JJ
work_dqud2adhprei3jnj4zdro365pa	1	163	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	1	164	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	1	165	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	1	166	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	1	167	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	1	168	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	1	169	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	1	170	yellow	yellow	JJ
work_dqud2adhprei3jnj4zdro365pa	1	171	paint	paint	NN
work_dqud2adhprei3jnj4zdro365pa	1	172	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	1	173	explain	explain	VB
work_dqud2adhprei3jnj4zdro365pa	1	174	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	1	175	origin	origin	NN
work_dqud2adhprei3jnj4zdro365pa	1	176	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	1	177	its	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	1	178	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	1	179	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	1	180	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	1	181	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	1	182	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	1	183	.	.	.
work_dqud2adhprei3jnj4zdro365pa	2	1	To	to	IN
work_dqud2adhprei3jnj4zdro365pa	2	2	this	this	DT
work_dqud2adhprei3jnj4zdro365pa	2	3	end	end	NN
work_dqud2adhprei3jnj4zdro365pa	2	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	2	5	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	2	6	com-	com-	DT
work_dqud2adhprei3jnj4zdro365pa	2	7	bine	bine	VBP
work_dqud2adhprei3jnj4zdro365pa	2	8	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	2	9	first	first	JJ
work_dqud2adhprei3jnj4zdro365pa	2	10	principles	principle	NNS
work_dqud2adhprei3jnj4zdro365pa	2	11	study	study	NN
work_dqud2adhprei3jnj4zdro365pa	2	12	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	2	13	Cd-	Cd-	NNP
work_dqud2adhprei3jnj4zdro365pa	2	14	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	2	15	S-	S-	NNP
work_dqud2adhprei3jnj4zdro365pa	2	16	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	2	17	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	2	18	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	2	19	wurtzite	wurtzite	JJ
work_dqud2adhprei3jnj4zdro365pa	2	20	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	2	21	101̄0	101̄0	CD
work_dqud2adhprei3jnj4zdro365pa	2	22	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	2	23	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	2	24	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	2	25	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	2	26	experimental	experimental	JJ
work_dqud2adhprei3jnj4zdro365pa	2	27	photoluminescence	photoluminescence	NN
work_dqud2adhprei3jnj4zdro365pa	2	28	spectroscopy	spectroscopy	NN
work_dqud2adhprei3jnj4zdro365pa	2	29	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	2	30	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	2	31	commercial	commercial	JJ
work_dqud2adhprei3jnj4zdro365pa	2	32	hexag-	hexag-	NNP
work_dqud2adhprei3jnj4zdro365pa	2	33	onal	onal	JJ
work_dqud2adhprei3jnj4zdro365pa	2	34	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	2	35	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	2	36	.	.	.
work_dqud2adhprei3jnj4zdro365pa	3	1	Computational	computational	JJ
work_dqud2adhprei3jnj4zdro365pa	3	2	results	result	NNS
work_dqud2adhprei3jnj4zdro365pa	3	3	clearly	clearly	RB
work_dqud2adhprei3jnj4zdro365pa	3	4	state	state	VBP
work_dqud2adhprei3jnj4zdro365pa	3	5	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	3	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	3	7	presence	presence	NN
work_dqud2adhprei3jnj4zdro365pa	3	8	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	3	9	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	3	10	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	3	11	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	3	12	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	3	13	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	3	14	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	3	15	alters	alter	VBZ
work_dqud2adhprei3jnj4zdro365pa	3	16	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	3	17	electronic	electronic	JJ
work_dqud2adhprei3jnj4zdro365pa	3	18	structure	structure	NN
work_dqud2adhprei3jnj4zdro365pa	3	19	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	3	20	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	3	21	sulfide	sulfide	NN
work_dqud2adhprei3jnj4zdro365pa	3	22	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	3	23	forming	form	VBG
work_dqud2adhprei3jnj4zdro365pa	3	24	acceptor	acceptor	NN
work_dqud2adhprei3jnj4zdro365pa	3	25	levels	level	NNS
work_dqud2adhprei3jnj4zdro365pa	3	26	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	3	27	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	3	28	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	3	29	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	3	30	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	3	31	semiconductor	semiconductor	NN
work_dqud2adhprei3jnj4zdro365pa	3	32	.	.	.
work_dqud2adhprei3jnj4zdro365pa	4	1	Such	such	JJ
work_dqud2adhprei3jnj4zdro365pa	4	2	levels	level	NNS
work_dqud2adhprei3jnj4zdro365pa	4	3	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	4	4	consis-	consis-	VBN
work_dqud2adhprei3jnj4zdro365pa	4	5	tent	tent	NN
work_dqud2adhprei3jnj4zdro365pa	4	6	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	4	7	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	4	8	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	4	9	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	4	10	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	4	11	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	4	12	state	state	NN
work_dqud2adhprei3jnj4zdro365pa	4	13	levels	level	NNS
work_dqud2adhprei3jnj4zdro365pa	4	14	detected	detect	VBN
work_dqud2adhprei3jnj4zdro365pa	4	15	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	4	16	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	4	17	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	4	18	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	4	19	.	.	.
work_dqud2adhprei3jnj4zdro365pa	5	1	This	this	DT
work_dqud2adhprei3jnj4zdro365pa	5	2	finding	finding	NN
work_dqud2adhprei3jnj4zdro365pa	5	3	provides	provide	VBZ
work_dqud2adhprei3jnj4zdro365pa	5	4	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	5	5	first	first	JJ
work_dqud2adhprei3jnj4zdro365pa	5	6	step	step	NN
work_dqud2adhprei3jnj4zdro365pa	5	7	towards	towards	IN
work_dqud2adhprei3jnj4zdro365pa	5	8	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	5	9	understanding	understanding	NN
work_dqud2adhprei3jnj4zdro365pa	5	10	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	5	11	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	5	12	photo	photo	NN
work_dqud2adhprei3jnj4zdro365pa	5	13	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	5	14	physical	physical	JJ
work_dqud2adhprei3jnj4zdro365pa	5	15	mechanisms	mechanism	NNS
work_dqud2adhprei3jnj4zdro365pa	5	16	behind	behind	IN
work_dqud2adhprei3jnj4zdro365pa	5	17	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	5	18	degradation	degradation	NN
work_dqud2adhprei3jnj4zdro365pa	5	19	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	5	20	this	this	DT
work_dqud2adhprei3jnj4zdro365pa	5	21	modern	modern	JJ
work_dqud2adhprei3jnj4zdro365pa	5	22	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	5	23	,	,	,
work_dqud2adhprei3jnj4zdro365pa	5	24	widely	widely	RB
work_dqud2adhprei3jnj4zdro365pa	5	25	used	use	VBN
work_dqud2adhprei3jnj4zdro365pa	5	26	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	5	27	impres-	impres-	NNP
work_dqud2adhprei3jnj4zdro365pa	5	28	sionist	sionist	NN
work_dqud2adhprei3jnj4zdro365pa	5	29	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	5	30	modernist	modernist	JJ
work_dqud2adhprei3jnj4zdro365pa	5	31	paintings	painting	NNS
work_dqud2adhprei3jnj4zdro365pa	5	32	.	.	.
work_dqud2adhprei3jnj4zdro365pa	6	1	©	©	LS
work_dqud2adhprei3jnj4zdro365pa	6	2	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	6	3	Author(s	author(s	CD
work_dqud2adhprei3jnj4zdro365pa	6	4	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	6	5	.	.	.
work_dqud2adhprei3jnj4zdro365pa	7	1	All	all	DT
work_dqud2adhprei3jnj4zdro365pa	7	2	article	article	NN
work_dqud2adhprei3jnj4zdro365pa	7	3	content	content	NN
work_dqud2adhprei3jnj4zdro365pa	7	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	7	5	except	except	IN
work_dqud2adhprei3jnj4zdro365pa	7	6	where	where	WRB
work_dqud2adhprei3jnj4zdro365pa	7	7	otherwise	otherwise	RB
work_dqud2adhprei3jnj4zdro365pa	7	8	noted	note	VBN
work_dqud2adhprei3jnj4zdro365pa	7	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	7	10	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	7	11	licensed	license	VBN
work_dqud2adhprei3jnj4zdro365pa	7	12	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	7	13	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	7	14	Creative	Creative	NNP
work_dqud2adhprei3jnj4zdro365pa	7	15	Commons	Commons	NNP
work_dqud2adhprei3jnj4zdro365pa	7	16	Attribution	Attribution	NNP
work_dqud2adhprei3jnj4zdro365pa	7	17	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	7	18	CC	CC	NNP
work_dqud2adhprei3jnj4zdro365pa	7	19	BY	BY	NNP
work_dqud2adhprei3jnj4zdro365pa	7	20	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	7	21	license	license	NN
work_dqud2adhprei3jnj4zdro365pa	7	22	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	7	23	http://creativecommons.org/licenses/by/4.0/	http://creativecommons.org/licenses/by/4.0/	ADD
work_dqud2adhprei3jnj4zdro365pa	7	24	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	7	25	.	.	.
work_dqud2adhprei3jnj4zdro365pa	8	1	https://doi.org/10.1063/1.5018512	https://doi.org/10.1063/1.5018512	NNP
work_dqud2adhprei3jnj4zdro365pa	8	2	Metal	metal	NN
work_dqud2adhprei3jnj4zdro365pa	8	3	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	8	4	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	8	5	semiconductors	semiconductor	NNS
work_dqud2adhprei3jnj4zdro365pa	8	6	have	have	VBP
work_dqud2adhprei3jnj4zdro365pa	8	7	been	be	VBN
work_dqud2adhprei3jnj4zdro365pa	8	8	widely	widely	RB
work_dqud2adhprei3jnj4zdro365pa	8	9	used	use	VBN
work_dqud2adhprei3jnj4zdro365pa	8	10	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	8	11	colour	colour	NN
work_dqud2adhprei3jnj4zdro365pa	8	12	pigments	pigment	NNS
work_dqud2adhprei3jnj4zdro365pa	8	13	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	8	14	impressionist	impressionist	NNP
work_dqud2adhprei3jnj4zdro365pa	8	15	,	,	,
work_dqud2adhprei3jnj4zdro365pa	8	16	post-	post-	NNP
work_dqud2adhprei3jnj4zdro365pa	8	17	impressionist	impressionist	NNP
work_dqud2adhprei3jnj4zdro365pa	8	18	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	8	19	early	early	JJ
work_dqud2adhprei3jnj4zdro365pa	8	20	modern	modern	JJ
work_dqud2adhprei3jnj4zdro365pa	8	21	works	work	NNS
work_dqud2adhprei3jnj4zdro365pa	8	22	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	8	23	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	8	24	1880s	1880s	CD
work_dqud2adhprei3jnj4zdro365pa	8	25	through	through	IN
work_dqud2adhprei3jnj4zdro365pa	8	26	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	8	27	1920s	1920s	CD
work_dqud2adhprei3jnj4zdro365pa	8	28	.	.	.
work_dqud2adhprei3jnj4zdro365pa	9	1	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	9	2	particular	particular	JJ
work_dqud2adhprei3jnj4zdro365pa	9	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	9	4	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	9	5	brilliant	brilliant	JJ
work_dqud2adhprei3jnj4zdro365pa	9	6	yellow	yellow	JJ
work_dqud2adhprei3jnj4zdro365pa	9	7	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	9	8	takes	take	VBZ
work_dqud2adhprei3jnj4zdro365pa	9	9	its	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	9	10	colouration	colouration	NN
work_dqud2adhprei3jnj4zdro365pa	9	11	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	9	12	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	9	13	sulfide	sulfide	NN
work_dqud2adhprei3jnj4zdro365pa	9	14	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	9	15	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	9	16	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	9	17	,	,	,
work_dqud2adhprei3jnj4zdro365pa	9	18	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	9	19	II	II	NNP
work_dqud2adhprei3jnj4zdro365pa	9	20	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	9	21	VI	VI	NNP
work_dqud2adhprei3jnj4zdro365pa	9	22	wide	wide	JJ
work_dqud2adhprei3jnj4zdro365pa	9	23	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	9	24	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	9	25	semiconducting	semiconducting	NN
work_dqud2adhprei3jnj4zdro365pa	9	26	compound	compound	NN
work_dqud2adhprei3jnj4zdro365pa	9	27	.	.	.
work_dqud2adhprei3jnj4zdro365pa	10	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	10	2	strong	strong	JJ
work_dqud2adhprei3jnj4zdro365pa	10	3	yellow	yellow	JJ
work_dqud2adhprei3jnj4zdro365pa	10	4	colouration	colouration	NN
work_dqud2adhprei3jnj4zdro365pa	10	5	appeared	appear	VBD
work_dqud2adhprei3jnj4zdro365pa	10	6	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	10	7	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	10	8	works	work	NNS
work_dqud2adhprei3jnj4zdro365pa	10	9	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	10	10	Vincent	Vincent	NNP
work_dqud2adhprei3jnj4zdro365pa	10	11	van	van	NNP
work_dqud2adhprei3jnj4zdro365pa	10	12	Gogh	Gogh	NNP
work_dqud2adhprei3jnj4zdro365pa	10	13	followed	follow	VBN
work_dqud2adhprei3jnj4zdro365pa	10	14	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	10	15	prominent	prominent	JJ
work_dqud2adhprei3jnj4zdro365pa	10	16	artists	artist	NNS
work_dqud2adhprei3jnj4zdro365pa	10	17	such	such	JJ
work_dqud2adhprei3jnj4zdro365pa	10	18	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	10	19	Claude	Claude	NNP
work_dqud2adhprei3jnj4zdro365pa	10	20	Monet	Monet	NNP
work_dqud2adhprei3jnj4zdro365pa	10	21	,	,	,
work_dqud2adhprei3jnj4zdro365pa	10	22	Pablo	Pablo	NNP
work_dqud2adhprei3jnj4zdro365pa	10	23	Picasso	Picasso	NNP
work_dqud2adhprei3jnj4zdro365pa	10	24	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	10	25	Henry	Henry	NNP
work_dqud2adhprei3jnj4zdro365pa	10	26	Matisse	Matisse	NNP
work_dqud2adhprei3jnj4zdro365pa	10	27	.	.	.
work_dqud2adhprei3jnj4zdro365pa	11	1	It	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	11	2	was	be	VBD
work_dqud2adhprei3jnj4zdro365pa	11	3	early	early	RB
work_dqud2adhprei3jnj4zdro365pa	11	4	recognised	recognise	VBN
work_dqud2adhprei3jnj4zdro365pa	11	5	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	11	6	poor	poor	JJ
work_dqud2adhprei3jnj4zdro365pa	11	7	quality	quality	NN
work_dqud2adhprei3jnj4zdro365pa	11	8	Cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	11	9	yellow	yellow	NN
work_dqud2adhprei3jnj4zdro365pa	11	10	tended	tend	VBD
work_dqud2adhprei3jnj4zdro365pa	11	11	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	11	12	loose	loose	VB
work_dqud2adhprei3jnj4zdro365pa	11	13	its	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	11	14	colour	colour	NN
work_dqud2adhprei3jnj4zdro365pa	11	15	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	11	16	light	light	NN
work_dqud2adhprei3jnj4zdro365pa	11	17	,	,	,
work_dqud2adhprei3jnj4zdro365pa	11	18	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	11	19	recommendations	recommendation	NNS
work_dqud2adhprei3jnj4zdro365pa	11	20	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	11	21	insure	insure	VB
work_dqud2adhprei3jnj4zdro365pa	11	22	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	11	23	absence	absence	NN
work_dqud2adhprei3jnj4zdro365pa	11	24	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	11	25	free	free	JJ
work_dqud2adhprei3jnj4zdro365pa	11	26	sulphur	sulphur	NN
work_dqud2adhprei3jnj4zdro365pa	11	27	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	11	28	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	11	29	yellows	yellow	NNS
work_dqud2adhprei3jnj4zdro365pa	11	30	were	be	VBD
work_dqud2adhprei3jnj4zdro365pa	11	31	made.1	made.1	JJ
work_dqud2adhprei3jnj4zdro365pa	11	32	Various	various	JJ
work_dqud2adhprei3jnj4zdro365pa	11	33	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	11	34	yellow	yellow	JJ
work_dqud2adhprei3jnj4zdro365pa	11	35	pigments	pigment	NNS
work_dqud2adhprei3jnj4zdro365pa	11	36	undergo	undergo	VBP
work_dqud2adhprei3jnj4zdro365pa	11	37	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	11	38	irreversible	irreversible	JJ
work_dqud2adhprei3jnj4zdro365pa	11	39	degradation	degradation	NN
work_dqud2adhprei3jnj4zdro365pa	11	40	process	process	NN
work_dqud2adhprei3jnj4zdro365pa	11	41	,	,	,
work_dqud2adhprei3jnj4zdro365pa	11	42	causes	cause	NNS
work_dqud2adhprei3jnj4zdro365pa	11	43	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	11	44	which	which	WDT
work_dqud2adhprei3jnj4zdro365pa	11	45	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	11	46	still	still	RB
work_dqud2adhprei3jnj4zdro365pa	11	47	unclear	unclear	JJ
work_dqud2adhprei3jnj4zdro365pa	11	48	.	.	.
work_dqud2adhprei3jnj4zdro365pa	12	1	Discolouration	discolouration	NN
work_dqud2adhprei3jnj4zdro365pa	12	2	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	12	3	fading	fade	VBG
work_dqud2adhprei3jnj4zdro365pa	12	4	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	12	5	darkening	darken	VBG
work_dqud2adhprei3jnj4zdro365pa	12	6	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	12	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	12	8	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	12	9	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	12	10	crumbly	crumbly	NN
work_dqud2adhprei3jnj4zdro365pa	12	11	surfaces	surface	NNS
work_dqud2adhprei3jnj4zdro365pa	12	12	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	12	13	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	12	14	whitish	whitish	JJ
work_dqud2adhprei3jnj4zdro365pa	12	15	semitransparent	semitransparent	JJ
work_dqud2adhprei3jnj4zdro365pa	12	16	globules	globule	NNS
work_dqud2adhprei3jnj4zdro365pa	12	17	have	have	VBP
work_dqud2adhprei3jnj4zdro365pa	12	18	been	be	VBN
work_dqud2adhprei3jnj4zdro365pa	12	19	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	12	20	.	.	.
work_dqud2adhprei3jnj4zdro365pa	13	1	Recent	recent	JJ
work_dqud2adhprei3jnj4zdro365pa	13	2	microscopy	microscopy	JJ
work_dqud2adhprei3jnj4zdro365pa	13	3	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	13	4	spectroscopy	spectroscopy	VBP
work_dqud2adhprei3jnj4zdro365pa	13	5	studies	study	NNS
work_dqud2adhprei3jnj4zdro365pa	13	6	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	13	7	Ensor	Ensor	NNP
work_dqud2adhprei3jnj4zdro365pa	13	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	13	9	Matisse	Matisse	NNP
work_dqud2adhprei3jnj4zdro365pa	13	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	13	11	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	13	12	Van	Van	NNP
work_dqud2adhprei3jnj4zdro365pa	13	13	Gogh	Gogh	NNP
work_dqud2adhprei3jnj4zdro365pa	13	14	paints2–6	paints2–6	NN
work_dqud2adhprei3jnj4zdro365pa	13	15	have	have	VBP
work_dqud2adhprei3jnj4zdro365pa	13	16	partially	partially	RB
work_dqud2adhprei3jnj4zdro365pa	13	17	elucidated	elucidate	VBN
work_dqud2adhprei3jnj4zdro365pa	13	18	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	13	19	chemistry	chemistry	NN
work_dqud2adhprei3jnj4zdro365pa	13	20	behind	behind	IN
work_dqud2adhprei3jnj4zdro365pa	13	21	discoloration	discoloration	NN
work_dqud2adhprei3jnj4zdro365pa	13	22	mechanisms	mechanism	NNS
work_dqud2adhprei3jnj4zdro365pa	13	23	,	,	,
work_dqud2adhprei3jnj4zdro365pa	13	24	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	13	25	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	13	26	identification	identification	NN
work_dqud2adhprei3jnj4zdro365pa	13	27	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	13	28	mapping	mapping	NN
work_dqud2adhprei3jnj4zdro365pa	13	29	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	13	30	different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	13	31	photo	photo	NN
work_dqud2adhprei3jnj4zdro365pa	13	32	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	13	33	oxidation	oxidation	NN
work_dqud2adhprei3jnj4zdro365pa	13	34	products	product	NNS
work_dqud2adhprei3jnj4zdro365pa	13	35	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	13	36	altered	alter	VBN
work_dqud2adhprei3jnj4zdro365pa	13	37	paint	paint	NN
work_dqud2adhprei3jnj4zdro365pa	13	38	layers	layer	NNS
work_dqud2adhprei3jnj4zdro365pa	13	39	,	,	,
work_dqud2adhprei3jnj4zdro365pa	13	40	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	13	41	carbonates	carbonate	NNS
work_dqud2adhprei3jnj4zdro365pa	13	42	,	,	,
work_dqud2adhprei3jnj4zdro365pa	13	43	sulfates	sulfate	NNS
work_dqud2adhprei3jnj4zdro365pa	13	44	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	13	45	oxalates	oxalate	NNS
work_dqud2adhprei3jnj4zdro365pa	13	46	.	.	.
work_dqud2adhprei3jnj4zdro365pa	14	1	However	however	RB
work_dqud2adhprei3jnj4zdro365pa	14	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	14	3	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	14	4	trigger	trigger	NN
work_dqud2adhprei3jnj4zdro365pa	14	5	mechanism	mechanism	NN
work_dqud2adhprei3jnj4zdro365pa	14	6	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	14	7	this	this	DT
work_dqud2adhprei3jnj4zdro365pa	14	8	irreversible	irreversible	JJ
work_dqud2adhprei3jnj4zdro365pa	14	9	degradation	degradation	NN
work_dqud2adhprei3jnj4zdro365pa	14	10	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	14	11	still	still	RB
work_dqud2adhprei3jnj4zdro365pa	14	12	unknown	unknown	JJ
work_dqud2adhprei3jnj4zdro365pa	14	13	.	.	.
work_dqud2adhprei3jnj4zdro365pa	15	1	It	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	15	2	has	have	VBZ
work_dqud2adhprei3jnj4zdro365pa	15	3	been	be	VBN
work_dqud2adhprei3jnj4zdro365pa	15	4	suggested	suggest	VBN
work_dqud2adhprei3jnj4zdro365pa	15	5	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	15	6	paint	paint	NN
work_dqud2adhprei3jnj4zdro365pa	15	7	alteration	alteration	NN
work_dqud2adhprei3jnj4zdro365pa	15	8	could	could	MD
work_dqud2adhprei3jnj4zdro365pa	15	9	be	be	VB
work_dqud2adhprei3jnj4zdro365pa	15	10	ascribed	ascribe	VBN
work_dqud2adhprei3jnj4zdro365pa	15	11	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	15	12	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	15	13	initial	initial	JJ
work_dqud2adhprei3jnj4zdro365pa	15	14	photo	photo	NN
work_dqud2adhprei3jnj4zdro365pa	15	15	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	15	16	oxidation	oxidation	NN
work_dqud2adhprei3jnj4zdro365pa	15	17	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	15	18	CdS:7	CdS:7	NNP
work_dqud2adhprei3jnj4zdro365pa	15	19	excitation	excitation	NN
work_dqud2adhprei3jnj4zdro365pa	15	20	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	15	21	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	15	22	material	material	NN
work_dqud2adhprei3jnj4zdro365pa	15	23	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	15	24	visible	visible	JJ
work_dqud2adhprei3jnj4zdro365pa	15	25	light	light	JJ
work_dqud2adhprei3jnj4zdro365pa	15	26	results	result	NNS
work_dqud2adhprei3jnj4zdro365pa	15	27	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	15	28	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	15	29	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	15	30	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	15	31	electron	electron	NNP
work_dqud2adhprei3jnj4zdro365pa	15	32	/	/	SYM
work_dqud2adhprei3jnj4zdro365pa	15	33	hole	hole	NNP
work_dqud2adhprei3jnj4zdro365pa	15	34	pairs	pair	NNS
work_dqud2adhprei3jnj4zdro365pa	15	35	which	which	WDT
work_dqud2adhprei3jnj4zdro365pa	15	36	,	,	,
work_dqud2adhprei3jnj4zdro365pa	15	37	following	follow	VBG
work_dqud2adhprei3jnj4zdro365pa	15	38	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	15	39	migration	migration	NN
work_dqud2adhprei3jnj4zdro365pa	15	40	,	,	,
work_dqud2adhprei3jnj4zdro365pa	15	41	produce	produce	VBP
work_dqud2adhprei3jnj4zdro365pa	15	42	redox	redox	NN
work_dqud2adhprei3jnj4zdro365pa	15	43	chemistry	chemistry	NN
work_dqud2adhprei3jnj4zdro365pa	15	44	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	15	45	organic	organic	JJ
work_dqud2adhprei3jnj4zdro365pa	15	46	oxidation	oxidation	NN
work_dqud2adhprei3jnj4zdro365pa	15	47	.	.	.
work_dqud2adhprei3jnj4zdro365pa	16	1	Cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	16	2	sulfide	sulfide	NN
work_dqud2adhprei3jnj4zdro365pa	16	3	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	16	4	observed	observe	VBN
work_dqud2adhprei3jnj4zdro365pa	16	5	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	16	6	many	many	JJ
work_dqud2adhprei3jnj4zdro365pa	16	7	pigments	pigment	NNS
work_dqud2adhprei3jnj4zdro365pa	16	8	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	16	9	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	16	10	hexagonal	hexagonal	NNP
work_dqud2adhprei3jnj4zdro365pa	16	11	wurtzite	wurtzite	NNP
work_dqud2adhprei3jnj4zdro365pa	16	12	phase6,8	phase6,8	CD
work_dqud2adhprei3jnj4zdro365pa	16	13	-	-	:
work_dqud2adhprei3jnj4zdro365pa	16	14	that	that	WDT
work_dqud2adhprei3jnj4zdro365pa	16	15	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	16	16	confirmed	confirm	VBN
work_dqud2adhprei3jnj4zdro365pa	16	17	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	16	18	be	be	VB
work_dqud2adhprei3jnj4zdro365pa	16	19	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	16	20	main	main	JJ
work_dqud2adhprei3jnj4zdro365pa	16	21	crystalline	crystalline	NN
work_dqud2adhprei3jnj4zdro365pa	16	22	constituent	constituent	NN
work_dqud2adhprei3jnj4zdro365pa	16	23	alaura.giacopetti@dsf.unica.it	alaura.giacopetti@dsf.unica.it	NN
work_dqud2adhprei3jnj4zdro365pa	16	24	baustin.nevin@ifn.cnr.it	baustin.nevin@ifn.cnr.it	NN
work_dqud2adhprei3jnj4zdro365pa	16	25	cdaniela.comelli@polimi.it	cdaniela.comelli@polimi.it	VBD
work_dqud2adhprei3jnj4zdro365pa	16	26	dgianluca.valentini@polimi.it	dgianluca.valentini@polimi.it	NNP
work_dqud2adhprei3jnj4zdro365pa	16	27	eMarco.BuongiornoNardelli@unt.edu	eMarco.BuongiornoNardelli@unt.edu	NNP
work_dqud2adhprei3jnj4zdro365pa	16	28	falessandra.satta@cnr.it	falessandra.satta@cnr.it	NNPS
work_dqud2adhprei3jnj4zdro365pa	16	29	;	;	:
work_dqud2adhprei3jnj4zdro365pa	16	30	Corresponding	correspond	VBG
work_dqud2adhprei3jnj4zdro365pa	16	31	author	author	NN
work_dqud2adhprei3jnj4zdro365pa	16	32	2158	2158	CD
work_dqud2adhprei3jnj4zdro365pa	16	33	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	16	34	3226/2018/8(6)/065202/8	3226/2018/8(6)/065202/8	CD
work_dqud2adhprei3jnj4zdro365pa	16	35	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	16	36	,	,	,
work_dqud2adhprei3jnj4zdro365pa	16	37	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	16	38	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	16	39	1	1	CD
work_dqud2adhprei3jnj4zdro365pa	16	40	©	©	CD
work_dqud2adhprei3jnj4zdro365pa	16	41	Author(s	author(s	CD
work_dqud2adhprei3jnj4zdro365pa	16	42	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	16	43	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	16	44	https://doi.org/10.1063/1.5018512	https://doi.org/10.1063/1.5018512	NNP
work_dqud2adhprei3jnj4zdro365pa	16	45	https://doi.org/10.1063/1.5018512	https://doi.org/10.1063/1.5018512	NNP
work_dqud2adhprei3jnj4zdro365pa	16	46	http://creativecommons.org/licenses/by/4.0/	http://creativecommons.org/licenses/by/4.0/	-LRB-
work_dqud2adhprei3jnj4zdro365pa	16	47	https://doi.org/10.1063/1.5018512	https://doi.org/10.1063/1.5018512	NNP
work_dqud2adhprei3jnj4zdro365pa	16	48	mailto:laura.giacopetti@dsf.unica.it	mailto:laura.giacopetti@dsf.unica.it	RB
work_dqud2adhprei3jnj4zdro365pa	16	49	mailto:austin.nevin@ifn.cnr.it	mailto:austin.nevin@ifn.cnr.it	XX
work_dqud2adhprei3jnj4zdro365pa	16	50	mailto:daniela.comelli@polimi.it	mailto:daniela.comelli@polimi.it	CD
work_dqud2adhprei3jnj4zdro365pa	16	51	mailto:gianluca.valentini@polimi.it	mailto:gianluca.valentini@polimi.it	CD
work_dqud2adhprei3jnj4zdro365pa	16	52	mailto:Marco.BuongiornoNardelli@unt.edu	mailto:Marco.BuongiornoNardelli@unt.edu	NNS
work_dqud2adhprei3jnj4zdro365pa	16	53	mailto:alessandra.satta@cnr.it	mailto:alessandra.satta@cnr.it	VBP
work_dqud2adhprei3jnj4zdro365pa	16	54	http://crossmark.crossref.org/dialog/?doi=10.1063/1.5018512&domain=pdf&date_stamp=2018-06-01	http://crossmark.crossref.org/dialog/?doi=10.1063/1.5018512&domain=pdf&date_stamp=2018-06-01	ADD
work_dqud2adhprei3jnj4zdro365pa	16	55	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	16	56	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	16	57	2	2	CD
work_dqud2adhprei3jnj4zdro365pa	16	58	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	16	59	et	et	NNP
work_dqud2adhprei3jnj4zdro365pa	16	60	al	al	NNP
work_dqud2adhprei3jnj4zdro365pa	16	61	.	.	.
work_dqud2adhprei3jnj4zdro365pa	17	1	AIP	AIP	NNP
work_dqud2adhprei3jnj4zdro365pa	17	2	Advances	Advances	NNP
work_dqud2adhprei3jnj4zdro365pa	17	3	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	17	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	17	5	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	17	6	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	17	7	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	17	8	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	17	9	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	17	10	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	17	11	yellow	yellow	JJ
work_dqud2adhprei3jnj4zdro365pa	17	12	paint	paint	NN
work_dqud2adhprei3jnj4zdro365pa	17	13	.	.	.
work_dqud2adhprei3jnj4zdro365pa	18	1	Beyond	beyond	IN
work_dqud2adhprei3jnj4zdro365pa	18	2	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	18	3	specific	specific	JJ
work_dqud2adhprei3jnj4zdro365pa	18	4	field	field	NN
work_dqud2adhprei3jnj4zdro365pa	18	5	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	18	6	Cultural	Cultural	NNP
work_dqud2adhprei3jnj4zdro365pa	18	7	Heritage	Heritage	NNP
work_dqud2adhprei3jnj4zdro365pa	18	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	18	9	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	18	10	physical	physical	JJ
work_dqud2adhprei3jnj4zdro365pa	18	11	properties	property	NNS
work_dqud2adhprei3jnj4zdro365pa	18	12	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	18	13	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	18	14	have	have	VBP
work_dqud2adhprei3jnj4zdro365pa	18	15	been	be	VBN
work_dqud2adhprei3jnj4zdro365pa	18	16	widely	widely	RB
work_dqud2adhprei3jnj4zdro365pa	18	17	studied	study	VBN
work_dqud2adhprei3jnj4zdro365pa	18	18	due	due	JJ
work_dqud2adhprei3jnj4zdro365pa	18	19	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	18	20	their	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	18	21	importance	importance	NN
work_dqud2adhprei3jnj4zdro365pa	18	22	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	18	23	fundamental	fundamental	JJ
work_dqud2adhprei3jnj4zdro365pa	18	24	science	science	NN
work_dqud2adhprei3jnj4zdro365pa	18	25	as	as	RB
work_dqud2adhprei3jnj4zdro365pa	18	26	well	well	RB
work_dqud2adhprei3jnj4zdro365pa	18	27	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	18	28	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	18	29	optoelectronic	optoelectronic	JJ
work_dqud2adhprei3jnj4zdro365pa	18	30	applications	application	NNS
work_dqud2adhprei3jnj4zdro365pa	18	31	like	like	IN
work_dqud2adhprei3jnj4zdro365pa	18	32	solar	solar	JJ
work_dqud2adhprei3jnj4zdro365pa	18	33	cells,9,10	cells,9,10	NNP
work_dqud2adhprei3jnj4zdro365pa	18	34	lasers,11,12	lasers,11,12	NNP
work_dqud2adhprei3jnj4zdro365pa	18	35	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	18	36	recently	recently	RB
work_dqud2adhprei3jnj4zdro365pa	18	37	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	18	38	nanotechnology.13,14	nanotechnology.13,14	NNP
work_dqud2adhprei3jnj4zdro365pa	18	39	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	18	40	this	this	DT
work_dqud2adhprei3jnj4zdro365pa	18	41	Letter	letter	NN
work_dqud2adhprei3jnj4zdro365pa	18	42	,	,	,
work_dqud2adhprei3jnj4zdro365pa	18	43	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	18	44	study	study	VBP
work_dqud2adhprei3jnj4zdro365pa	18	45	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	18	46	role	role	NN
work_dqud2adhprei3jnj4zdro365pa	18	47	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	18	48	structural	structural	JJ
work_dqud2adhprei3jnj4zdro365pa	18	49	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	18	50	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	18	51	hexagonal	hexagonal	NNP
work_dqud2adhprei3jnj4zdro365pa	18	52	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	18	53	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	18	54	explain	explain	VB
work_dqud2adhprei3jnj4zdro365pa	18	55	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	18	56	origin	origin	NN
work_dqud2adhprei3jnj4zdro365pa	18	57	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	18	58	its	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	18	59	well	well	RB
work_dqud2adhprei3jnj4zdro365pa	18	60	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	18	61	known	know	VBN
work_dqud2adhprei3jnj4zdro365pa	18	62	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	18	63	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	18	64	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	18	65	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	18	66	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	18	67	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	18	68	.	.	.
work_dqud2adhprei3jnj4zdro365pa	19	1	Indeed	indeed	RB
work_dqud2adhprei3jnj4zdro365pa	19	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	19	3	these	these	DT
work_dqud2adhprei3jnj4zdro365pa	19	4	crystal	crystal	NN
work_dqud2adhprei3jnj4zdro365pa	19	5	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	19	6	could	could	MD
work_dqud2adhprei3jnj4zdro365pa	19	7	be	be	VB
work_dqud2adhprei3jnj4zdro365pa	19	8	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	19	9	precursors	precursor	NNS
work_dqud2adhprei3jnj4zdro365pa	19	10	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	19	11	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	19	12	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	19	13	degradation	degradation	NN
work_dqud2adhprei3jnj4zdro365pa	19	14	process	process	NN
work_dqud2adhprei3jnj4zdro365pa	19	15	.	.	.
work_dqud2adhprei3jnj4zdro365pa	20	1	Among	among	IN
work_dqud2adhprei3jnj4zdro365pa	20	2	native	native	JJ
work_dqud2adhprei3jnj4zdro365pa	20	3	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	20	4	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	20	5	focus	focus	VBP
work_dqud2adhprei3jnj4zdro365pa	20	6	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	20	7	cation	cation	NN
work_dqud2adhprei3jnj4zdro365pa	20	8	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	20	9	anion	anion	NN
work_dqud2adhprei3jnj4zdro365pa	20	10	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	20	11	since	since	IN
work_dqud2adhprei3jnj4zdro365pa	20	12	other	other	JJ
work_dqud2adhprei3jnj4zdro365pa	20	13	types	type	NNS
work_dqud2adhprei3jnj4zdro365pa	20	14	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	20	15	intrinsic	intrinsic	JJ
work_dqud2adhprei3jnj4zdro365pa	20	16	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	20	17	were	be	VBD
work_dqud2adhprei3jnj4zdro365pa	20	18	shown	show	VBN
work_dqud2adhprei3jnj4zdro365pa	20	19	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	20	20	give	give	VB
work_dqud2adhprei3jnj4zdro365pa	20	21	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	20	22	yield	yield	NN
work_dqud2adhprei3jnj4zdro365pa	20	23	that	that	WDT
work_dqud2adhprei3jnj4zdro365pa	20	24	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	20	25	not	not	RB
work_dqud2adhprei3jnj4zdro365pa	20	26	compatible	compatible	JJ
work_dqud2adhprei3jnj4zdro365pa	20	27	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	20	28	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	20	29	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	20	30	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	20	31	state.15–17	state.15–17	NN
work_dqud2adhprei3jnj4zdro365pa	20	32	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	20	33	particular	particular	JJ
work_dqud2adhprei3jnj4zdro365pa	20	34	,	,	,
work_dqud2adhprei3jnj4zdro365pa	20	35	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	20	36	focus	focus	VBP
work_dqud2adhprei3jnj4zdro365pa	20	37	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	20	38	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	20	39	role	role	NN
work_dqud2adhprei3jnj4zdro365pa	20	40	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	20	41	Cd-	Cd-	NNP
work_dqud2adhprei3jnj4zdro365pa	20	42	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	20	43	S-	S-	NNP
work_dqud2adhprei3jnj4zdro365pa	20	44	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	20	45	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	20	46	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	20	47	most	most	RBS
work_dqud2adhprei3jnj4zdro365pa	20	48	stable	stable	JJ
work_dqud2adhprei3jnj4zdro365pa	20	49	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	20	50	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	20	51	,	,	,
work_dqud2adhprei3jnj4zdro365pa	20	52	namely	namely	RB
work_dqud2adhprei3jnj4zdro365pa	20	53	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	20	54	{	{	-LRB-
work_dqud2adhprei3jnj4zdro365pa	20	55	10.0	10.0	CD
work_dqud2adhprei3jnj4zdro365pa	20	56	}	}	-RRB-
work_dqud2adhprei3jnj4zdro365pa	20	57	.	.	.
work_dqud2adhprei3jnj4zdro365pa	21	1	Their	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	21	2	influence	influence	NN
work_dqud2adhprei3jnj4zdro365pa	21	3	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	21	4	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	21	5	electronic	electronic	JJ
work_dqud2adhprei3jnj4zdro365pa	21	6	structure	structure	NN
work_dqud2adhprei3jnj4zdro365pa	21	7	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	21	8	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	21	9	sulfide	sulfide	NN
work_dqud2adhprei3jnj4zdro365pa	21	10	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	21	11	studied	study	VBN
work_dqud2adhprei3jnj4zdro365pa	21	12	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	21	13	means	mean	NNS
work_dqud2adhprei3jnj4zdro365pa	21	14	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	21	15	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	21	16	first	first	JJ
work_dqud2adhprei3jnj4zdro365pa	21	17	principles	principle	NNS
work_dqud2adhprei3jnj4zdro365pa	21	18	method	method	NN
work_dqud2adhprei3jnj4zdro365pa	21	19	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	21	20	combination	combination	NN
work_dqud2adhprei3jnj4zdro365pa	21	21	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	21	22	experimental	experimental	JJ
work_dqud2adhprei3jnj4zdro365pa	21	23	photoluminescence	photoluminescence	NN
work_dqud2adhprei3jnj4zdro365pa	21	24	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	21	25	PL	PL	NNP
work_dqud2adhprei3jnj4zdro365pa	21	26	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	21	27	spectroscopy	spectroscopy	VBP
work_dqud2adhprei3jnj4zdro365pa	21	28	measurements	measurement	NNS
work_dqud2adhprei3jnj4zdro365pa	21	29	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	21	30	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	21	31	commercial	commercial	JJ
work_dqud2adhprei3jnj4zdro365pa	21	32	undeteriorated	undeteriorated	JJ
work_dqud2adhprei3jnj4zdro365pa	21	33	hexagonal	hexagonal	NNP
work_dqud2adhprei3jnj4zdro365pa	21	34	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	21	35	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	21	36	.	.	.
work_dqud2adhprei3jnj4zdro365pa	22	1	Photoluminescence	photoluminescence	NN
work_dqud2adhprei3jnj4zdro365pa	22	2	emissions	emission	NNS
work_dqud2adhprei3jnj4zdro365pa	22	3	due	due	IN
work_dqud2adhprei3jnj4zdro365pa	22	4	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	22	5	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	22	6	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	22	7	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	22	8	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	22	9	observed	observe	VBN
work_dqud2adhprei3jnj4zdro365pa	22	10	both	both	CC
work_dqud2adhprei3jnj4zdro365pa	22	11	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	22	12	pure	pure	JJ
work_dqud2adhprei3jnj4zdro365pa	22	13	commercial18–20	commercial18–20	NN
work_dqud2adhprei3jnj4zdro365pa	22	14	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	22	15	historical	historical	JJ
work_dqud2adhprei3jnj4zdro365pa	22	16	degraded	degraded	JJ
work_dqud2adhprei3jnj4zdro365pa	22	17	pigments18,21	pigments18,21	NNP
work_dqud2adhprei3jnj4zdro365pa	22	18	supporting	support	VBG
work_dqud2adhprei3jnj4zdro365pa	22	19	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	22	20	basic	basic	JJ
work_dqud2adhprei3jnj4zdro365pa	22	21	idea	idea	NN
work_dqud2adhprei3jnj4zdro365pa	22	22	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	22	23	traps	trap	NNS
work_dqud2adhprei3jnj4zdro365pa	22	24	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	22	25	intrinsic	intrinsic	JJ
work_dqud2adhprei3jnj4zdro365pa	22	26	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	22	27	CdS.	CdS.	NNP
work_dqud2adhprei3jnj4zdro365pa	23	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	23	2	identification	identification	NN
work_dqud2adhprei3jnj4zdro365pa	23	3	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	23	4	these	these	DT
work_dqud2adhprei3jnj4zdro365pa	23	5	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	23	6	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	23	7	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	23	8	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	23	9	essential	essential	JJ
work_dqud2adhprei3jnj4zdro365pa	23	10	step	step	NN
work_dqud2adhprei3jnj4zdro365pa	23	11	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	23	12	understand	understand	VB
work_dqud2adhprei3jnj4zdro365pa	23	13	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	23	14	chemical	chemical	JJ
work_dqud2adhprei3jnj4zdro365pa	23	15	reactivity	reactivity	NN
work_dqud2adhprei3jnj4zdro365pa	23	16	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	23	17	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	23	18	unaltered	unaltered	JJ
work_dqud2adhprei3jnj4zdro365pa	23	19	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	23	20	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	23	21	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	23	22	provide	provide	VB
work_dqud2adhprei3jnj4zdro365pa	23	23	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	23	24	reliable	reliable	JJ
work_dqud2adhprei3jnj4zdro365pa	23	25	starting	starting	NN
work_dqud2adhprei3jnj4zdro365pa	23	26	point	point	NN
work_dqud2adhprei3jnj4zdro365pa	23	27	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	23	28	future	future	JJ
work_dqud2adhprei3jnj4zdro365pa	23	29	studies	study	NNS
work_dqud2adhprei3jnj4zdro365pa	23	30	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	23	31	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	23	32	complex	complex	JJ
work_dqud2adhprei3jnj4zdro365pa	23	33	mechanisms	mechanism	NNS
work_dqud2adhprei3jnj4zdro365pa	23	34	involved	involve	VBN
work_dqud2adhprei3jnj4zdro365pa	23	35	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	23	36	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	23	37	deterioration	deterioration	NN
work_dqud2adhprei3jnj4zdro365pa	23	38	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	23	39	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	23	40	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	23	41	paint	paint	NN
work_dqud2adhprei3jnj4zdro365pa	23	42	.	.	.
work_dqud2adhprei3jnj4zdro365pa	24	1	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	24	2	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	24	3	present	present	JJ
work_dqud2adhprei3jnj4zdro365pa	24	4	work	work	NN
work_dqud2adhprei3jnj4zdro365pa	24	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	24	6	PL	PL	NNP
work_dqud2adhprei3jnj4zdro365pa	24	7	spectroscopy	spectroscopy	NN
work_dqud2adhprei3jnj4zdro365pa	24	8	has	have	VBZ
work_dqud2adhprei3jnj4zdro365pa	24	9	been	be	VBN
work_dqud2adhprei3jnj4zdro365pa	24	10	performed	perform	VBN
work_dqud2adhprei3jnj4zdro365pa	24	11	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	24	12	hexagonal	hexagonal	NNP
work_dqud2adhprei3jnj4zdro365pa	24	13	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	24	14	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	24	15	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	24	16	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	24	17	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	24	18	employing	employ	VBG
work_dqud2adhprei3jnj4zdro365pa	24	19	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	24	20	compact	compact	JJ
work_dqud2adhprei3jnj4zdro365pa	24	21	spectrometer	spectrometer	NN
work_dqud2adhprei3jnj4zdro365pa	24	22	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	24	23	UV	uv	NN
work_dqud2adhprei3jnj4zdro365pa	24	24	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	24	25	laser	laser	NN
work_dqud2adhprei3jnj4zdro365pa	24	26	excitation	excitation	NN
work_dqud2adhprei3jnj4zdro365pa	24	27	.	.	.
work_dqud2adhprei3jnj4zdro365pa	25	1	Details	detail	NNS
work_dqud2adhprei3jnj4zdro365pa	25	2	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	25	3	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	25	4	employed	employ	VBN
work_dqud2adhprei3jnj4zdro365pa	25	5	PL	PL	NNP
work_dqud2adhprei3jnj4zdro365pa	25	6	spec-	spec-	NN
work_dqud2adhprei3jnj4zdro365pa	25	7	trometer	trometer	NN
work_dqud2adhprei3jnj4zdro365pa	25	8	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	25	9	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	25	10	analysis	analysis	NN
work_dqud2adhprei3jnj4zdro365pa	25	11	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	25	12	experimental	experimental	JJ
work_dqud2adhprei3jnj4zdro365pa	25	13	data	datum	NNS
work_dqud2adhprei3jnj4zdro365pa	25	14	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	25	15	provided	provide	VBN
work_dqud2adhprei3jnj4zdro365pa	25	16	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	25	17	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	25	18	supplementary	supplementary	JJ
work_dqud2adhprei3jnj4zdro365pa	25	19	material	material	NN
work_dqud2adhprei3jnj4zdro365pa	25	20	.	.	.
work_dqud2adhprei3jnj4zdro365pa	26	1	First	first	JJ
work_dqud2adhprei3jnj4zdro365pa	26	2	principles	principle	NNS
work_dqud2adhprei3jnj4zdro365pa	26	3	calculations	calculation	NNS
work_dqud2adhprei3jnj4zdro365pa	26	4	have	have	VBP
work_dqud2adhprei3jnj4zdro365pa	26	5	been	be	VBN
work_dqud2adhprei3jnj4zdro365pa	26	6	carried	carry	VBN
work_dqud2adhprei3jnj4zdro365pa	26	7	out	out	RP
work_dqud2adhprei3jnj4zdro365pa	26	8	within	within	IN
work_dqud2adhprei3jnj4zdro365pa	26	9	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	26	10	density	density	NN
work_dqud2adhprei3jnj4zdro365pa	26	11	functional	functional	JJ
work_dqud2adhprei3jnj4zdro365pa	26	12	theory	theory	NN
work_dqud2adhprei3jnj4zdro365pa	26	13	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	26	14	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	26	15	generalized	generalize	VBN
work_dqud2adhprei3jnj4zdro365pa	26	16	gradient	gradient	JJ
work_dqud2adhprei3jnj4zdro365pa	26	17	approximation	approximation	NN
work_dqud2adhprei3jnj4zdro365pa	26	18	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	26	19	DFT	DFT	NNP
work_dqud2adhprei3jnj4zdro365pa	26	20	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	26	21	GGA	GGA	NNP
work_dqud2adhprei3jnj4zdro365pa	26	22	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	26	23	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	26	24	implemented	implement	VBN
work_dqud2adhprei3jnj4zdro365pa	26	25	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	26	26	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	26	27	quantum	quantum	JJ
work_dqud2adhprei3jnj4zdro365pa	26	28	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	26	29	ESPRESSO22	espresso22	NN
work_dqud2adhprei3jnj4zdro365pa	26	30	package	package	NN
work_dqud2adhprei3jnj4zdro365pa	26	31	,	,	,
work_dqud2adhprei3jnj4zdro365pa	26	32	using	use	VBG
work_dqud2adhprei3jnj4zdro365pa	26	33	ultrasoft	ultrasoft	NNP
work_dqud2adhprei3jnj4zdro365pa	26	34	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	26	35	PBE	PBE	NNP
work_dqud2adhprei3jnj4zdro365pa	26	36	pseudopotentials.23,24	pseudopotentials.23,24	NNP
work_dqud2adhprei3jnj4zdro365pa	26	37	To	to	TO
work_dqud2adhprei3jnj4zdro365pa	26	38	improve	improve	VB
work_dqud2adhprei3jnj4zdro365pa	26	39	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	26	40	description	description	NN
work_dqud2adhprei3jnj4zdro365pa	26	41	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	26	42	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	26	43	electronic	electronic	JJ
work_dqud2adhprei3jnj4zdro365pa	26	44	properties	property	NNS
work_dqud2adhprei3jnj4zdro365pa	26	45	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	26	46	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	26	47	correct	correct	VB
work_dqud2adhprei3jnj4zdro365pa	26	48	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	26	49	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	26	50	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	26	51	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	26	52	used	use	VBD
work_dqud2adhprei3jnj4zdro365pa	26	53	ACBN0	acbn0	NN
work_dqud2adhprei3jnj4zdro365pa	26	54	,	,	,
work_dqud2adhprei3jnj4zdro365pa	26	55	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	26	56	novel	novel	JJ
work_dqud2adhprei3jnj4zdro365pa	26	57	pseudo	pseudo	NN
work_dqud2adhprei3jnj4zdro365pa	26	58	-	-	JJ
work_dqud2adhprei3jnj4zdro365pa	26	59	hybrid	hybrid	JJ
work_dqud2adhprei3jnj4zdro365pa	26	60	Hubbard	Hubbard	NNP
work_dqud2adhprei3jnj4zdro365pa	26	61	density	density	NN
work_dqud2adhprei3jnj4zdro365pa	26	62	functional	functional	JJ
work_dqud2adhprei3jnj4zdro365pa	26	63	that	that	WDT
work_dqud2adhprei3jnj4zdro365pa	26	64	was	be	VBD
work_dqud2adhprei3jnj4zdro365pa	26	65	recently	recently	RB
work_dqud2adhprei3jnj4zdro365pa	26	66	developed	develop	VBN
work_dqud2adhprei3jnj4zdro365pa	26	67	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	26	68	some	some	DT
work_dqud2adhprei3jnj4zdro365pa	26	69	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	26	70	us.25	us.25	JJ
work_dqud2adhprei3jnj4zdro365pa	26	71	Additional	additional	JJ
work_dqud2adhprei3jnj4zdro365pa	26	72	details	detail	NNS
work_dqud2adhprei3jnj4zdro365pa	26	73	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	26	74	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	26	75	computational	computational	JJ
work_dqud2adhprei3jnj4zdro365pa	26	76	set	set	VBN
work_dqud2adhprei3jnj4zdro365pa	26	77	up	up	RP
work_dqud2adhprei3jnj4zdro365pa	26	78	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	26	79	given	give	VBN
work_dqud2adhprei3jnj4zdro365pa	26	80	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	26	81	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	26	82	supplementary	supplementary	JJ
work_dqud2adhprei3jnj4zdro365pa	26	83	material	material	NN
work_dqud2adhprei3jnj4zdro365pa	26	84	.	.	.
work_dqud2adhprei3jnj4zdro365pa	27	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	27	2	relaxed	relaxed	JJ
work_dqud2adhprei3jnj4zdro365pa	27	3	clean	clean	JJ
work_dqud2adhprei3jnj4zdro365pa	27	4	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	27	5	101̄0	101̄0	CD
work_dqud2adhprei3jnj4zdro365pa	27	6	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	27	7	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	27	8	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	27	9	showed	show	VBD
work_dqud2adhprei3jnj4zdro365pa	27	10	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	27	11	typical	typical	JJ
work_dqud2adhprei3jnj4zdro365pa	27	12	ridged	ridged	JJ
work_dqud2adhprei3jnj4zdro365pa	27	13	profile	profile	NN
work_dqud2adhprei3jnj4zdro365pa	27	14	where	where	WRB
work_dqud2adhprei3jnj4zdro365pa	27	15	both	both	DT
work_dqud2adhprei3jnj4zdro365pa	27	16	cations	cation	NNS
work_dqud2adhprei3jnj4zdro365pa	27	17	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	27	18	anions	anion	NNS
work_dqud2adhprei3jnj4zdro365pa	27	19	occupy	occupy	VBP
work_dqud2adhprei3jnj4zdro365pa	27	20	two	two	CD
work_dqud2adhprei3jnj4zdro365pa	27	21	non	non	JJ
work_dqud2adhprei3jnj4zdro365pa	27	22	-	-	JJ
work_dqud2adhprei3jnj4zdro365pa	27	23	equivalent	equivalent	JJ
work_dqud2adhprei3jnj4zdro365pa	27	24	lattice	lattice	NN
work_dqud2adhprei3jnj4zdro365pa	27	25	sites	site	NNS
work_dqud2adhprei3jnj4zdro365pa	27	26	,	,	,
work_dqud2adhprei3jnj4zdro365pa	27	27	namely	namely	RB
work_dqud2adhprei3jnj4zdro365pa	27	28	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	27	29	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	27	30	hollow	hollow	JJ
work_dqud2adhprei3jnj4zdro365pa	27	31	positions	position	NNS
work_dqud2adhprei3jnj4zdro365pa	27	32	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	27	33	see	see	VB
work_dqud2adhprei3jnj4zdro365pa	27	34	supplementary	supplementary	JJ
work_dqud2adhprei3jnj4zdro365pa	27	35	material	material	NN
work_dqud2adhprei3jnj4zdro365pa	27	36	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	27	37	.	.	.
work_dqud2adhprei3jnj4zdro365pa	28	1	We	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	28	2	will	will	MD
work_dqud2adhprei3jnj4zdro365pa	28	3	refer	refer	VB
work_dqud2adhprei3jnj4zdro365pa	28	4	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	28	5	V	v	NN
work_dqud2adhprei3jnj4zdro365pa	28	6	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	28	7	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	28	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	28	9	Vhollow	Vhollow	NNP
work_dqud2adhprei3jnj4zdro365pa	28	10	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	28	11	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	28	12	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	28	13	V	v	NN
work_dqud2adhprei3jnj4zdro365pa	28	14	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	28	15	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	28	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	28	17	Vhollow	Vhollow	NNP
work_dqud2adhprei3jnj4zdro365pa	28	18	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	28	19	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	28	20	indicate	indicate	VB
work_dqud2adhprei3jnj4zdro365pa	28	21	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	28	22	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	28	23	sulfur	sulfur	NN
work_dqud2adhprei3jnj4zdro365pa	28	24	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	28	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	28	26	respectively	respectively	RB
work_dqud2adhprei3jnj4zdro365pa	28	27	.	.	.
work_dqud2adhprei3jnj4zdro365pa	29	1	We	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	29	2	focused	focus	VBD
work_dqud2adhprei3jnj4zdro365pa	29	3	first	first	RB
work_dqud2adhprei3jnj4zdro365pa	29	4	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	29	5	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	29	6	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	29	7	since	since	IN
work_dqud2adhprei3jnj4zdro365pa	29	8	they	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	29	9	were	be	VBD
work_dqud2adhprei3jnj4zdro365pa	29	10	shown	show	VBN
work_dqud2adhprei3jnj4zdro365pa	29	11	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	29	12	benchmark	benchmark	NN
work_dqud2adhprei3jnj4zdro365pa	29	13	calcula-	calcula-	NN
work_dqud2adhprei3jnj4zdro365pa	29	14	tions26–28	tions26–28	VB
work_dqud2adhprei3jnj4zdro365pa	29	15	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	29	16	play	play	VB
work_dqud2adhprei3jnj4zdro365pa	29	17	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	29	18	key	key	JJ
work_dqud2adhprei3jnj4zdro365pa	29	19	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	29	20	role	role	NN
work_dqud2adhprei3jnj4zdro365pa	29	21	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	29	22	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	29	23	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	29	24	reactivity	reactivity	NN
work_dqud2adhprei3jnj4zdro365pa	29	25	.	.	.
work_dqud2adhprei3jnj4zdro365pa	30	1	As	as	IN
work_dqud2adhprei3jnj4zdro365pa	30	2	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	30	3	V	V	NNP
work_dqud2adhprei3jnj4zdro365pa	30	4	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	30	5	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	30	6	,	,	,
work_dqud2adhprei3jnj4zdro365pa	30	7	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	30	8	corresponding	corresponding	JJ
work_dqud2adhprei3jnj4zdro365pa	30	9	density	density	NN
work_dqud2adhprei3jnj4zdro365pa	30	10	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	30	11	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	30	12	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	30	13	DOS	DOS	NNP
work_dqud2adhprei3jnj4zdro365pa	30	14	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	30	15	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	30	16	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	30	17	panel	panel	NN
work_dqud2adhprei3jnj4zdro365pa	30	18	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	30	19	Fig	Fig	NNP
work_dqud2adhprei3jnj4zdro365pa	30	20	.	.	.
work_dqud2adhprei3jnj4zdro365pa	31	1	1c	1c	LS
work_dqud2adhprei3jnj4zdro365pa	31	2	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	31	3	shows	show	VBZ
work_dqud2adhprei3jnj4zdro365pa	31	4	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	31	5	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	31	6	defective	defective	JJ
work_dqud2adhprei3jnj4zdro365pa	31	7	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	31	8	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	31	9	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	31	10	clean	clean	JJ
work_dqud2adhprei3jnj4zdro365pa	31	11	one	one	CD
work_dqud2adhprei3jnj4zdro365pa	31	12	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	31	13	shaded	shaded	JJ
work_dqud2adhprei3jnj4zdro365pa	31	14	area	area	NN
work_dqud2adhprei3jnj4zdro365pa	31	15	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	31	16	differ	differ	VBP
work_dqud2adhprei3jnj4zdro365pa	31	17	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	31	18	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	31	19	presence	presence	NN
work_dqud2adhprei3jnj4zdro365pa	31	20	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	31	21	two	two	CD
work_dqud2adhprei3jnj4zdro365pa	31	22	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	31	23	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	31	24	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	31	25	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	31	26	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	31	27	due	due	JJ
work_dqud2adhprei3jnj4zdro365pa	31	28	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	31	29	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	31	30	residual	residual	NN
work_dqud2adhprei3jnj4zdro365pa	31	31	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	31	32	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	31	33	spin	spin	VB
work_dqud2adhprei3jnj4zdro365pa	31	34	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	31	35	down	down	RP
work_dqud2adhprei3jnj4zdro365pa	31	36	contribution	contribution	NN
work_dqud2adhprei3jnj4zdro365pa	31	37	:	:	:
work_dqud2adhprei3jnj4zdro365pa	31	38	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	31	39	shallow	shallow	JJ
work_dqud2adhprei3jnj4zdro365pa	31	40	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	31	41	close	close	RB
work_dqud2adhprei3jnj4zdro365pa	31	42	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	31	43	valence	valence	NN
work_dqud2adhprei3jnj4zdro365pa	31	44	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	31	45	edge	edge	NN
work_dqud2adhprei3jnj4zdro365pa	31	46	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	31	47	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	31	48	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	31	49	one	one	CD
work_dqud2adhprei3jnj4zdro365pa	31	50	.	.	.
work_dqud2adhprei3jnj4zdro365pa	32	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	32	2	projected	project	VBN
work_dqud2adhprei3jnj4zdro365pa	32	3	DOS	DOS	NNP
work_dqud2adhprei3jnj4zdro365pa	32	4	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	32	5	central	central	JJ
work_dqud2adhprei3jnj4zdro365pa	32	6	panel	panel	NN
work_dqud2adhprei3jnj4zdro365pa	32	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	32	8	reveals	reveal	VBZ
work_dqud2adhprei3jnj4zdro365pa	32	9	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	32	10	this	this	DT
work_dqud2adhprei3jnj4zdro365pa	32	11	defect	defect	JJ
work_dqud2adhprei3jnj4zdro365pa	32	12	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	32	13	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	32	14	two	two	CD
work_dqud2adhprei3jnj4zdro365pa	32	15	acceptor	acceptor	NN
work_dqud2adhprei3jnj4zdro365pa	32	16	levels	level	NNS
work_dqud2adhprei3jnj4zdro365pa	32	17	,	,	,
work_dqud2adhprei3jnj4zdro365pa	32	18	two	two	CD
work_dqud2adhprei3jnj4zdro365pa	32	19	electron	electron	NN
work_dqud2adhprei3jnj4zdro365pa	32	20	holes	hole	NNS
work_dqud2adhprei3jnj4zdro365pa	32	21	,	,	,
work_dqud2adhprei3jnj4zdro365pa	32	22	originating	originate	VBG
work_dqud2adhprei3jnj4zdro365pa	32	23	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	32	24	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	32	25	3p	3p	RB
work_dqud2adhprei3jnj4zdro365pa	32	26	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	32	27	dangling	dangle	VBG
work_dqud2adhprei3jnj4zdro365pa	32	28	bonds	bond	NNS
work_dqud2adhprei3jnj4zdro365pa	32	29	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	32	30	sulfur	sulfur	NN
work_dqud2adhprei3jnj4zdro365pa	32	31	nearest	near	JJS
work_dqud2adhprei3jnj4zdro365pa	32	32	neighbours	neighbour	NNS
work_dqud2adhprei3jnj4zdro365pa	32	33	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	32	34	SNN	SNN	NNP
work_dqud2adhprei3jnj4zdro365pa	32	35	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	32	36	lying	lie	VBG
work_dqud2adhprei3jnj4zdro365pa	32	37	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	32	38	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	32	39	plane	plane	NN
work_dqud2adhprei3jnj4zdro365pa	32	40	.	.	.
work_dqud2adhprei3jnj4zdro365pa	33	1	No	no	DT
work_dqud2adhprei3jnj4zdro365pa	33	2	contribution	contribution	NN
work_dqud2adhprei3jnj4zdro365pa	33	3	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	33	4	detected	detect	VBN
work_dqud2adhprei3jnj4zdro365pa	33	5	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	33	6	S⊥	s⊥	NN
work_dqud2adhprei3jnj4zdro365pa	33	7	atoms	atom	NNS
work_dqud2adhprei3jnj4zdro365pa	33	8	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	33	9	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	33	10	inte-	inte-	NNP
work_dqud2adhprei3jnj4zdro365pa	33	11	rior	rior	NNP
work_dqud2adhprei3jnj4zdro365pa	33	12	layers	layer	NNS
work_dqud2adhprei3jnj4zdro365pa	33	13	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	33	14	bottom	bottom	JJ
work_dqud2adhprei3jnj4zdro365pa	33	15	panel	panel	NN
work_dqud2adhprei3jnj4zdro365pa	33	16	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	33	17	,	,	,
work_dqud2adhprei3jnj4zdro365pa	33	18	as	as	RB
work_dqud2adhprei3jnj4zdro365pa	33	19	well	well	RB
work_dqud2adhprei3jnj4zdro365pa	33	20	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	33	21	equally	equally	RB
work_dqud2adhprei3jnj4zdro365pa	33	22	negligible	negligible	JJ
work_dqud2adhprei3jnj4zdro365pa	33	23	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	33	24	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	33	25	contributions	contribution	NNS
work_dqud2adhprei3jnj4zdro365pa	33	26	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	33	27	Cd⊥.	Cd⊥.	NNP
work_dqud2adhprei3jnj4zdro365pa	34	1	Similarly	similarly	RB
work_dqud2adhprei3jnj4zdro365pa	34	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	34	3	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	34	4	Vhollow	Vhollow	NNP
work_dqud2adhprei3jnj4zdro365pa	34	5	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	34	6	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	34	7	double	double	JJ
work_dqud2adhprei3jnj4zdro365pa	34	8	acceptor	acceptor	NN
work_dqud2adhprei3jnj4zdro365pa	34	9	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	34	10	appears	appear	VBZ
work_dqud2adhprei3jnj4zdro365pa	34	11	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	34	12	top	top	NN
work_dqud2adhprei3jnj4zdro365pa	34	13	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	34	14	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	34	15	valence	valence	NN
work_dqud2adhprei3jnj4zdro365pa	34	16	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	34	17	maximum	maximum	NN
work_dqud2adhprei3jnj4zdro365pa	34	18	.	.	.
work_dqud2adhprei3jnj4zdro365pa	35	1	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	35	2	Fig	Fig	NNP
work_dqud2adhprei3jnj4zdro365pa	35	3	.	.	.
work_dqud2adhprei3jnj4zdro365pa	36	1	2c	2c	NN
work_dqud2adhprei3jnj4zdro365pa	36	2	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	36	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	36	4	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	36	5	panel	panel	NN
work_dqud2adhprei3jnj4zdro365pa	36	6	,	,	,
work_dqud2adhprei3jnj4zdro365pa	36	7	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	36	8	vacancy	vacancy	NN
work_dqud2adhprei3jnj4zdro365pa	36	9	DOS	DOS	NNP
work_dqud2adhprei3jnj4zdro365pa	36	10	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	36	11	red	red	JJ
work_dqud2adhprei3jnj4zdro365pa	36	12	curve	curve	NN
work_dqud2adhprei3jnj4zdro365pa	36	13	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	36	14	follows	follow	VBZ
work_dqud2adhprei3jnj4zdro365pa	36	15	different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	36	16	spin	spin	NN
work_dqud2adhprei3jnj4zdro365pa	36	17	up	up	RB
work_dqud2adhprei3jnj4zdro365pa	36	18	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	36	19	down	down	IN
work_dqud2adhprei3jnj4zdro365pa	36	20	profiles	profile	NNS
work_dqud2adhprei3jnj4zdro365pa	36	21	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	36	22	still	still	RB
work_dqud2adhprei3jnj4zdro365pa	36	23	,	,	,
work_dqud2adhprei3jnj4zdro365pa	36	24	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	36	25	acceptor	acceptor	NN
work_dqud2adhprei3jnj4zdro365pa	36	26	state	state	NN
work_dqud2adhprei3jnj4zdro365pa	36	27	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	36	28	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	36	29	p	p	NN
work_dqud2adhprei3jnj4zdro365pa	36	30	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	36	31	like	like	JJ
work_dqud2adhprei3jnj4zdro365pa	36	32	spin	spin	NN
work_dqud2adhprei3jnj4zdro365pa	36	33	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	36	34	down	down	RP
work_dqud2adhprei3jnj4zdro365pa	36	35	residual	residual	JJ
work_dqud2adhprei3jnj4zdro365pa	36	36	due	due	IN
work_dqud2adhprei3jnj4zdro365pa	36	37	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	36	38	SNN	SNN	NNP
work_dqud2adhprei3jnj4zdro365pa	36	39	.	.	.
work_dqud2adhprei3jnj4zdro365pa	37	1	At	at	IN
work_dqud2adhprei3jnj4zdro365pa	37	2	variance	variance	NN
work_dqud2adhprei3jnj4zdro365pa	37	3	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	37	4	what	what	WP
work_dqud2adhprei3jnj4zdro365pa	37	5	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	37	6	shown	show	VBN
work_dqud2adhprei3jnj4zdro365pa	37	7	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	37	8	V	V	NNP
work_dqud2adhprei3jnj4zdro365pa	37	9	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	37	10	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	37	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	37	12	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	37	13	S⊥	s⊥	NN
work_dqud2adhprei3jnj4zdro365pa	37	14	undergoes	undergo	VBZ
work_dqud2adhprei3jnj4zdro365pa	37	15	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	37	16	remarkable	remarkable	JJ
work_dqud2adhprei3jnj4zdro365pa	37	17	upward	upward	JJ
work_dqud2adhprei3jnj4zdro365pa	37	18	relaxation	relaxation	NN
work_dqud2adhprei3jnj4zdro365pa	37	19	where	where	WRB
work_dqud2adhprei3jnj4zdro365pa	37	20	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	37	21	3p	3p	NNP
work_dqud2adhprei3jnj4zdro365pa	37	22	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	37	23	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	37	24	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	37	25	green	green	JJ
work_dqud2adhprei3jnj4zdro365pa	37	26	line	line	NN
work_dqud2adhprei3jnj4zdro365pa	37	27	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	37	28	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	37	29	bottom	bottom	JJ
work_dqud2adhprei3jnj4zdro365pa	37	30	panel	panel	NN
work_dqud2adhprei3jnj4zdro365pa	37	31	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	37	32	Fig	Fig	NNP
work_dqud2adhprei3jnj4zdro365pa	37	33	.	.	.
work_dqud2adhprei3jnj4zdro365pa	38	1	2c	2c	LS
work_dqud2adhprei3jnj4zdro365pa	38	2	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	38	3	partic-	partic-	NN
work_dqud2adhprei3jnj4zdro365pa	38	4	ipate	ipate	VB
work_dqud2adhprei3jnj4zdro365pa	38	5	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	38	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	38	7	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	38	8	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	38	9	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	38	10	acceptor	acceptor	NN
work_dqud2adhprei3jnj4zdro365pa	38	11	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	38	12	.	.	.
work_dqud2adhprei3jnj4zdro365pa	39	1	Interior	interior	JJ
work_dqud2adhprei3jnj4zdro365pa	39	2	sulfur	sulfur	NN
work_dqud2adhprei3jnj4zdro365pa	39	3	atoms	atom	NNS
work_dqud2adhprei3jnj4zdro365pa	39	4	lying	lie	VBG
work_dqud2adhprei3jnj4zdro365pa	39	5	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	39	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	39	7	bulk	bulk	JJ
work_dqud2adhprei3jnj4zdro365pa	39	8	region	region	NN
work_dqud2adhprei3jnj4zdro365pa	39	9	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	39	10	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	39	11	slab	slab	NN
work_dqud2adhprei3jnj4zdro365pa	39	12	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	39	13	violet	violet	NN
work_dqud2adhprei3jnj4zdro365pa	39	14	line	line	NN
work_dqud2adhprei3jnj4zdro365pa	39	15	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	39	16	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	39	17	bottom	bottom	JJ
work_dqud2adhprei3jnj4zdro365pa	39	18	panel	panel	NN
work_dqud2adhprei3jnj4zdro365pa	39	19	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	39	20	do	do	VBP
work_dqud2adhprei3jnj4zdro365pa	39	21	not	not	RB
work_dqud2adhprei3jnj4zdro365pa	39	22	show	show	VB
work_dqud2adhprei3jnj4zdro365pa	39	23	any	any	DT
work_dqud2adhprei3jnj4zdro365pa	39	24	spin	spin	NN
work_dqud2adhprei3jnj4zdro365pa	39	25	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	39	26	asymmetry	asymmetry	NN
work_dqud2adhprei3jnj4zdro365pa	39	27	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	39	28	no	no	DT
work_dqud2adhprei3jnj4zdro365pa	39	29	contribution	contribution	NN
work_dqud2adhprei3jnj4zdro365pa	39	30	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	39	31	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	39	32	extra	extra	JJ
work_dqud2adhprei3jnj4zdro365pa	39	33	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	39	34	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	39	35	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	39	36	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	39	37	confirming	confirm	VBG
work_dqud2adhprei3jnj4zdro365pa	39	38	that	that	WDT
work_dqud2adhprei3jnj4zdro365pa	39	39	unpaired	unpaire	VBD
work_dqud2adhprei3jnj4zdro365pa	39	40	p	p	NN
work_dqud2adhprei3jnj4zdro365pa	39	41	electrons	electron	NNS
work_dqud2adhprei3jnj4zdro365pa	39	42	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	39	43	sulfur	sulfur	NN
work_dqud2adhprei3jnj4zdro365pa	39	44	atoms	atom	NNS
work_dqud2adhprei3jnj4zdro365pa	39	45	decorating	decorate	VBG
work_dqud2adhprei3jnj4zdro365pa	39	46	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	39	47	vacancy	vacancy	NN
work_dqud2adhprei3jnj4zdro365pa	39	48	site	site	NN
work_dqud2adhprei3jnj4zdro365pa	39	49	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	39	50	solely	solely	RB
work_dqud2adhprei3jnj4zdro365pa	39	51	responsible	responsible	JJ
work_dqud2adhprei3jnj4zdro365pa	39	52	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	39	53	:	:	:
work_dqud2adhprei3jnj4zdro365pa	39	54	i	i	PRP
work_dqud2adhprei3jnj4zdro365pa	39	55	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	39	56	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	39	57	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	39	58	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	39	59	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	39	60	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	39	61	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	39	62	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	39	63	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	39	64	;	;	:
work_dqud2adhprei3jnj4zdro365pa	39	65	ii	ii	LS
work_dqud2adhprei3jnj4zdro365pa	39	66	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	39	67	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	39	68	localised	localise	VBN
work_dqud2adhprei3jnj4zdro365pa	39	69	ferromagnetic	ferromagnetic	JJ
work_dqud2adhprei3jnj4zdro365pa	39	70	behaviour	behaviour	NN
work_dqud2adhprei3jnj4zdro365pa	39	71	.	.	.
work_dqud2adhprei3jnj4zdro365pa	40	1	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	40	2	fact	fact	NN
work_dqud2adhprei3jnj4zdro365pa	40	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	40	4	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	40	5	total	total	JJ
work_dqud2adhprei3jnj4zdro365pa	40	6	magnetic	magnetic	JJ
work_dqud2adhprei3jnj4zdro365pa	40	7	moment	moment	NN
work_dqud2adhprei3jnj4zdro365pa	40	8	calculated	calculate	VBN
work_dqud2adhprei3jnj4zdro365pa	40	9	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	40	10	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	40	11	defective	defective	JJ
work_dqud2adhprei3jnj4zdro365pa	40	12	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	40	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	40	14	1.45µB	1.45µb	CD
work_dqud2adhprei3jnj4zdro365pa	40	15	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	40	16	1.72µB	1.72µb	CD
work_dqud2adhprei3jnj4zdro365pa	40	17	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	40	18	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	40	19	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	40	20	hollow	hollow	JJ
work_dqud2adhprei3jnj4zdro365pa	40	21	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	40	22	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	40	23	,	,	,
work_dqud2adhprei3jnj4zdro365pa	40	24	respectively	respectively	RB
work_dqud2adhprei3jnj4zdro365pa	40	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	40	26	results	result	NNS
work_dqud2adhprei3jnj4zdro365pa	40	27	only	only	RB
work_dqud2adhprei3jnj4zdro365pa	40	28	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	40	29	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	40	30	contributions	contribution	NNS
work_dqud2adhprei3jnj4zdro365pa	40	31	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	40	32	SNN	SNN	NNP
work_dqud2adhprei3jnj4zdro365pa	40	33	.	.	.
work_dqud2adhprei3jnj4zdro365pa	41	1	While	while	IN
work_dqud2adhprei3jnj4zdro365pa	41	2	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	41	3	structural	structural	JJ
work_dqud2adhprei3jnj4zdro365pa	41	4	properties	property	NNS
work_dqud2adhprei3jnj4zdro365pa	41	5	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	41	6	reliably	reliably	RB
work_dqud2adhprei3jnj4zdro365pa	41	7	predicted	predict	VBN
work_dqud2adhprei3jnj4zdro365pa	41	8	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	41	9	DFT	DFT	NNP
work_dqud2adhprei3jnj4zdro365pa	41	10	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	41	11	GGA	GGA	NNP
work_dqud2adhprei3jnj4zdro365pa	41	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	41	13	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	41	14	electronic	electronic	JJ
work_dqud2adhprei3jnj4zdro365pa	41	15	structure	structure	NN
work_dqud2adhprei3jnj4zdro365pa	41	16	suffers	suffer	VBZ
work_dqud2adhprei3jnj4zdro365pa	41	17	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	41	18	underesti-	underesti-	JJ
work_dqud2adhprei3jnj4zdro365pa	41	19	mation	mation	NN
work_dqud2adhprei3jnj4zdro365pa	41	20	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	41	21	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	41	22	bandgap	bandgap	NN
work_dqud2adhprei3jnj4zdro365pa	41	23	.	.	.
work_dqud2adhprei3jnj4zdro365pa	42	1	To	to	TO
work_dqud2adhprei3jnj4zdro365pa	42	2	improve	improve	VB
work_dqud2adhprei3jnj4zdro365pa	42	3	such	such	PDT
work_dqud2adhprei3jnj4zdro365pa	42	4	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	42	5	description	description	NN
work_dqud2adhprei3jnj4zdro365pa	42	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	42	7	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	42	8	structure	structure	NN
work_dqud2adhprei3jnj4zdro365pa	42	9	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	42	10	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	42	11	DOS	DOS	NNP
work_dqud2adhprei3jnj4zdro365pa	42	12	were	be	VBD
work_dqud2adhprei3jnj4zdro365pa	42	13	also	also	RB
work_dqud2adhprei3jnj4zdro365pa	42	14	deter-	deter-	VBN
work_dqud2adhprei3jnj4zdro365pa	42	15	mined	mine	VBN
work_dqud2adhprei3jnj4zdro365pa	42	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	42	17	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	42	18	few	few	JJ
work_dqud2adhprei3jnj4zdro365pa	42	19	relevant	relevant	JJ
work_dqud2adhprei3jnj4zdro365pa	42	20	cases	case	NNS
work_dqud2adhprei3jnj4zdro365pa	42	21	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	42	22	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	42	23	present	present	JJ
work_dqud2adhprei3jnj4zdro365pa	42	24	study	study	NN
work_dqud2adhprei3jnj4zdro365pa	42	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	42	26	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	42	27	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	42	28	use	use	NN
work_dqud2adhprei3jnj4zdro365pa	42	29	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	42	30	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	42	31	ACBN0	acbn0	JJ
work_dqud2adhprei3jnj4zdro365pa	42	32	functional	functional	JJ
work_dqud2adhprei3jnj4zdro365pa	42	33	that	that	WDT
work_dqud2adhprei3jnj4zdro365pa	42	34	was	be	VBD
work_dqud2adhprei3jnj4zdro365pa	42	35	recently	recently	RB
work_dqud2adhprei3jnj4zdro365pa	42	36	successfully	successfully	RB
work_dqud2adhprei3jnj4zdro365pa	42	37	applied	apply	VBN
work_dqud2adhprei3jnj4zdro365pa	42	38	,	,	,
work_dqud2adhprei3jnj4zdro365pa	42	39	among	among	IN
work_dqud2adhprei3jnj4zdro365pa	42	40	others	other	NNS
work_dqud2adhprei3jnj4zdro365pa	42	41	,	,	,
work_dqud2adhprei3jnj4zdro365pa	42	42	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	42	43	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	42	44	bulk.29	bulk.29	NNP
work_dqud2adhprei3jnj4zdro365pa	42	45	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	42	46	calculated	calculated	JJ
work_dqud2adhprei3jnj4zdro365pa	42	47	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	42	48	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	42	49	EACBN	eacbn	NN
work_dqud2adhprei3jnj4zdro365pa	42	50	0	0	NFP
work_dqud2adhprei3jnj4zdro365pa	42	51	g	g	NN
work_dqud2adhprei3jnj4zdro365pa	42	52	=	=	SYM
work_dqud2adhprei3jnj4zdro365pa	42	53	2.30	2.30	CD
work_dqud2adhprei3jnj4zdro365pa	42	54	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	42	55	differs	differ	NNS
work_dqud2adhprei3jnj4zdro365pa	42	56	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	42	57	5	5	CD
work_dqud2adhprei3jnj4zdro365pa	42	58	%	%	NN
work_dqud2adhprei3jnj4zdro365pa	42	59	compared	compare	VBN
work_dqud2adhprei3jnj4zdro365pa	42	60	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	42	61	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	42	62	experimental	experimental	JJ
work_dqud2adhprei3jnj4zdro365pa	42	63	one	one	CD
work_dqud2adhprei3jnj4zdro365pa	42	64	E	E	NNP
work_dqud2adhprei3jnj4zdro365pa	42	65	exp	exp	NN
work_dqud2adhprei3jnj4zdro365pa	42	66	g	g	NN
work_dqud2adhprei3jnj4zdro365pa	42	67	=	=	SYM
work_dqud2adhprei3jnj4zdro365pa	42	68	2.42	2.42	CD
work_dqud2adhprei3jnj4zdro365pa	42	69	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	42	70	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	42	71	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	42	72	remarkable	remarkable	JJ
work_dqud2adhprei3jnj4zdro365pa	42	73	improve	improve	NN
work_dqud2adhprei3jnj4zdro365pa	42	74	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	42	75	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	42	76	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	42	77	standard	standard	JJ
work_dqud2adhprei3jnj4zdro365pa	42	78	DFT	DFT	NNP
work_dqud2adhprei3jnj4zdro365pa	42	79	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	42	80	GGA	GGA	NNP
work_dqud2adhprei3jnj4zdro365pa	42	81	value	value	NN
work_dqud2adhprei3jnj4zdro365pa	42	82	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	42	83	EDFT−GGAg	EDFT−GGAg	NNP
work_dqud2adhprei3jnj4zdro365pa	42	84	=	=	NFP
work_dqud2adhprei3jnj4zdro365pa	42	85	1.19	1.19	CD
work_dqud2adhprei3jnj4zdro365pa	42	86	eV	ev	NN
work_dqud2adhprei3jnj4zdro365pa	42	87	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	42	88	.	.	.
work_dqud2adhprei3jnj4zdro365pa	43	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	43	2	recalculated	recalculated	JJ
work_dqud2adhprei3jnj4zdro365pa	43	3	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	43	4	structure	structure	NN
work_dqud2adhprei3jnj4zdro365pa	43	5	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	43	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	43	7	DOS	DOS	NNP
work_dqud2adhprei3jnj4zdro365pa	43	8	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	43	9	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	43	10	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	43	11	Figure	Figure	NNP
work_dqud2adhprei3jnj4zdro365pa	43	12	3	3	CD
work_dqud2adhprei3jnj4zdro365pa	43	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	43	14	where	where	WRB
work_dqud2adhprei3jnj4zdro365pa	43	15	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	43	16	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	43	17	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	43	18	electron	electron	NNP
work_dqud2adhprei3jnj4zdro365pa	43	19	state	state	NN
work_dqud2adhprei3jnj4zdro365pa	43	20	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	43	21	confirmed	confirm	VBN
work_dqud2adhprei3jnj4zdro365pa	43	22	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	43	23	be	be	VB
work_dqud2adhprei3jnj4zdro365pa	43	24	located	locate	VBN
work_dqud2adhprei3jnj4zdro365pa	43	25	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	43	26	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	43	27	bandgap	bandgap	NN
work_dqud2adhprei3jnj4zdro365pa	43	28	.	.	.
work_dqud2adhprei3jnj4zdro365pa	44	1	It	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	44	2	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	44	3	interesting	interesting	JJ
work_dqud2adhprei3jnj4zdro365pa	44	4	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	44	5	note	note	VB
work_dqud2adhprei3jnj4zdro365pa	44	6	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	44	7	there	there	EX
work_dqud2adhprei3jnj4zdro365pa	44	8	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	44	9	several	several	JJ
work_dqud2adhprei3jnj4zdro365pa	44	10	analogies	analogy	NNS
work_dqud2adhprei3jnj4zdro365pa	44	11	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	44	12	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	44	13	isoelectronic	isoelectronic	JJ
work_dqud2adhprei3jnj4zdro365pa	44	14	ZnO	zno	NN
work_dqud2adhprei3jnj4zdro365pa	44	15	{	{	-LRB-
work_dqud2adhprei3jnj4zdro365pa	44	16	10.0	10.0	CD
work_dqud2adhprei3jnj4zdro365pa	44	17	}	}	-RRB-
work_dqud2adhprei3jnj4zdro365pa	44	18	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	44	19	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	NNP
work_dqud2adhprei3jnj4zdro365pa	44	20	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	NNP
work_dqud2adhprei3jnj4zdro365pa	44	21	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	NNP
work_dqud2adhprei3jnj4zdro365pa	44	22	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	NNP
work_dqud2adhprei3jnj4zdro365pa	44	23	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	44	24	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	44	25	3	3	CD
work_dqud2adhprei3jnj4zdro365pa	44	26	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	44	27	et	et	NNP
work_dqud2adhprei3jnj4zdro365pa	44	28	al	al	NNP
work_dqud2adhprei3jnj4zdro365pa	44	29	.	.	.
work_dqud2adhprei3jnj4zdro365pa	45	1	AIP	AIP	NNP
work_dqud2adhprei3jnj4zdro365pa	45	2	Advances	Advances	NNP
work_dqud2adhprei3jnj4zdro365pa	45	3	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	45	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	45	5	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	45	6	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	45	7	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	45	8	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	45	9	FIG	FIG	NNP
work_dqud2adhprei3jnj4zdro365pa	45	10	.	.	.
work_dqud2adhprei3jnj4zdro365pa	46	1	1	1	LS
work_dqud2adhprei3jnj4zdro365pa	46	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	47	1	V	v	LS
work_dqud2adhprei3jnj4zdro365pa	47	2	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	47	3	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	47	4	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	47	5	Top	Top	NNP
work_dqud2adhprei3jnj4zdro365pa	47	6	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	47	7	view	view	NN
work_dqud2adhprei3jnj4zdro365pa	47	8	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	47	9	unrelaxed	unrelaxed	JJ
work_dqud2adhprei3jnj4zdro365pa	47	10	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	47	11	a	a	LS
work_dqud2adhprei3jnj4zdro365pa	47	12	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	47	13	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	47	14	relaxed	relaxed	JJ
work_dqud2adhprei3jnj4zdro365pa	47	15	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	47	16	b	b	NN
work_dqud2adhprei3jnj4zdro365pa	47	17	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	47	18	geometry	geometry	NN
work_dqud2adhprei3jnj4zdro365pa	47	19	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	47	20	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	47	21	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	47	22	{	{	-LRB-
work_dqud2adhprei3jnj4zdro365pa	47	23	10.0	10.0	CD
work_dqud2adhprei3jnj4zdro365pa	47	24	}	}	-RRB-
work_dqud2adhprei3jnj4zdro365pa	47	25	defective	defective	JJ
work_dqud2adhprei3jnj4zdro365pa	47	26	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	47	27	.	.	.
work_dqud2adhprei3jnj4zdro365pa	48	1	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	48	2	red	red	JJ
work_dqud2adhprei3jnj4zdro365pa	48	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	48	4	vacancy	vacancy	NN
work_dqud2adhprei3jnj4zdro365pa	48	5	surrounding	surround	VBG
work_dqud2adhprei3jnj4zdro365pa	48	6	bonds	bond	NNS
work_dqud2adhprei3jnj4zdro365pa	48	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	49	1	Total	total	JJ
work_dqud2adhprei3jnj4zdro365pa	49	2	DOS	DOS	NNP
work_dqud2adhprei3jnj4zdro365pa	49	3	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	49	4	clean	clean	JJ
work_dqud2adhprei3jnj4zdro365pa	49	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	49	6	shaded	shaded	JJ
work_dqud2adhprei3jnj4zdro365pa	49	7	area	area	NN
work_dqud2adhprei3jnj4zdro365pa	49	8	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	49	9	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	49	10	defective	defective	JJ
work_dqud2adhprei3jnj4zdro365pa	49	11	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	49	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	49	13	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	49	14	PDOS	PDOS	NNP
work_dqud2adhprei3jnj4zdro365pa	49	15	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	49	16	S-3p	S-3p	NNP
work_dqud2adhprei3jnj4zdro365pa	49	17	dangling	dangle	VBG
work_dqud2adhprei3jnj4zdro365pa	49	18	bonds	bond	NNS
work_dqud2adhprei3jnj4zdro365pa	49	19	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	49	20	c	c	NN
work_dqud2adhprei3jnj4zdro365pa	49	21	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	49	22	.	.	.
work_dqud2adhprei3jnj4zdro365pa	50	1	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	50	2	which	which	WDT
work_dqud2adhprei3jnj4zdro365pa	50	3	it	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	50	4	was	be	VBD
work_dqud2adhprei3jnj4zdro365pa	50	5	demonstrated30	demonstrated30	NN
work_dqud2adhprei3jnj4zdro365pa	50	6	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	50	7	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	50	8	green	green	JJ
work_dqud2adhprei3jnj4zdro365pa	50	9	luminescence	luminescence	NN
work_dqud2adhprei3jnj4zdro365pa	50	10	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	50	11	only	only	RB
work_dqud2adhprei3jnj4zdro365pa	50	12	assigned	assign	VBN
work_dqud2adhprei3jnj4zdro365pa	50	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	50	14	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	50	15	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	50	16	presence	presence	NN
work_dqud2adhprei3jnj4zdro365pa	50	17	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	50	18	Zn	Zn	NNP
work_dqud2adhprei3jnj4zdro365pa	50	19	vacancy	vacancy	NN
work_dqud2adhprei3jnj4zdro365pa	50	20	,	,	,
work_dqud2adhprei3jnj4zdro365pa	50	21	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	50	22	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	50	23	unpaired	unpaire	VBN
work_dqud2adhprei3jnj4zdro365pa	50	24	O	O	NNP
work_dqud2adhprei3jnj4zdro365pa	50	25	p	p	NN
work_dqud2adhprei3jnj4zdro365pa	50	26	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	50	27	electrons	electron	NNS
work_dqud2adhprei3jnj4zdro365pa	50	28	that	that	WDT
work_dqud2adhprei3jnj4zdro365pa	50	29	give	give	VBP
work_dqud2adhprei3jnj4zdro365pa	50	30	rise	rise	NN
work_dqud2adhprei3jnj4zdro365pa	50	31	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	50	32	empty	empty	JJ
work_dqud2adhprei3jnj4zdro365pa	50	33	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	50	34	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	50	35	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	50	36	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	50	37	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	50	38	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	50	39	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	50	40	residual	residual	JJ
work_dqud2adhprei3jnj4zdro365pa	50	41	spin	spin	NN
work_dqud2adhprei3jnj4zdro365pa	50	42	magnetisation	magnetisation	NN
work_dqud2adhprei3jnj4zdro365pa	50	43	.	.	.
work_dqud2adhprei3jnj4zdro365pa	51	1	Sulfur	sulfur	NN
work_dqud2adhprei3jnj4zdro365pa	51	2	vacancies	vacancie	VBZ
work_dqud2adhprei3jnj4zdro365pa	51	3	both	both	CC
work_dqud2adhprei3jnj4zdro365pa	51	4	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	51	5	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	51	6	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	51	7	hollow	hollow	JJ
work_dqud2adhprei3jnj4zdro365pa	51	8	positions	position	NNS
work_dqud2adhprei3jnj4zdro365pa	51	9	lead	lead	VBP
work_dqud2adhprei3jnj4zdro365pa	51	10	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	51	11	see	see	VB
work_dqud2adhprei3jnj4zdro365pa	51	12	supplementary	supplementary	JJ
work_dqud2adhprei3jnj4zdro365pa	51	13	material	material	NN
work_dqud2adhprei3jnj4zdro365pa	51	14	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	51	15	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	51	16	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	51	17	slight	slight	JJ
work_dqud2adhprei3jnj4zdro365pa	51	18	rearrangement	rearrangement	NN
work_dqud2adhprei3jnj4zdro365pa	51	19	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	51	20	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	51	21	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	51	22	edges	edge	NNS
work_dqud2adhprei3jnj4zdro365pa	51	23	but	but	CC
work_dqud2adhprei3jnj4zdro365pa	51	24	no	no	DT
work_dqud2adhprei3jnj4zdro365pa	51	25	remarkable	remarkable	JJ
work_dqud2adhprei3jnj4zdro365pa	51	26	effects	effect	NNS
work_dqud2adhprei3jnj4zdro365pa	51	27	within	within	IN
work_dqud2adhprei3jnj4zdro365pa	51	28	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	51	29	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	51	30	region	region	NN
work_dqud2adhprei3jnj4zdro365pa	51	31	.	.	.
work_dqud2adhprei3jnj4zdro365pa	52	1	For	for	IN
work_dqud2adhprei3jnj4zdro365pa	52	2	this	this	DT
work_dqud2adhprei3jnj4zdro365pa	52	3	reason	reason	NN
work_dqud2adhprei3jnj4zdro365pa	52	4	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	52	5	will	will	MD
work_dqud2adhprei3jnj4zdro365pa	52	6	focus	focus	VB
work_dqud2adhprei3jnj4zdro365pa	52	7	henceforth	henceforth	RB
work_dqud2adhprei3jnj4zdro365pa	52	8	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	52	9	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	52	10	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	52	11	.	.	.
work_dqud2adhprei3jnj4zdro365pa	53	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	53	2	presence	presence	NN
work_dqud2adhprei3jnj4zdro365pa	53	3	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	53	4	electrically	electrically	RB
work_dqud2adhprei3jnj4zdro365pa	53	5	active	active	JJ
work_dqud2adhprei3jnj4zdro365pa	53	6	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	53	7	may	may	MD
work_dqud2adhprei3jnj4zdro365pa	53	8	affect	affect	VB
work_dqud2adhprei3jnj4zdro365pa	53	9	recombination	recombination	NN
work_dqud2adhprei3jnj4zdro365pa	53	10	rates	rate	NNS
work_dqud2adhprei3jnj4zdro365pa	53	11	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	53	12	cause	cause	VB
work_dqud2adhprei3jnj4zdro365pa	53	13	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	53	14	absorption	absorption	NN
work_dqud2adhprei3jnj4zdro365pa	53	15	or	or	CC
work_dqud2adhprei3jnj4zdro365pa	53	16	luminescence	luminescence	NN
work_dqud2adhprei3jnj4zdro365pa	53	17	.	.	.
work_dqud2adhprei3jnj4zdro365pa	54	1	As	as	IN
work_dqud2adhprei3jnj4zdro365pa	54	2	already	already	RB
work_dqud2adhprei3jnj4zdro365pa	54	3	mentioned	mention	VBN
work_dqud2adhprei3jnj4zdro365pa	54	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	54	5	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	54	6	considerable	considerable	JJ
work_dqud2adhprei3jnj4zdro365pa	54	7	underestimation	underestimation	NN
work_dqud2adhprei3jnj4zdro365pa	54	8	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	54	9	semiconduc-	semiconduc-	NNP
work_dqud2adhprei3jnj4zdro365pa	54	10	tor	tor	NN
work_dqud2adhprei3jnj4zdro365pa	54	11	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	54	12	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	54	13	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	54	14	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	54	15	shortcoming	shortcoming	NN
work_dqud2adhprei3jnj4zdro365pa	54	16	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	54	17	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	54	18	DFT	DFT	NNP
work_dqud2adhprei3jnj4zdro365pa	54	19	approach.31	approach.31	NNP
work_dqud2adhprei3jnj4zdro365pa	54	20	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	54	21	moderately	moderately	RB
work_dqud2adhprei3jnj4zdro365pa	54	22	large	large	JJ
work_dqud2adhprei3jnj4zdro365pa	54	23	size	size	NN
work_dqud2adhprei3jnj4zdro365pa	54	24	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	54	25	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	54	26	defective	defective	JJ
work_dqud2adhprei3jnj4zdro365pa	54	27	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	54	28	considered	consider	VBN
work_dqud2adhprei3jnj4zdro365pa	54	29	makes	make	VBZ
work_dqud2adhprei3jnj4zdro365pa	54	30	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	54	31	use	use	NN
work_dqud2adhprei3jnj4zdro365pa	54	32	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	54	33	proper	proper	JJ
work_dqud2adhprei3jnj4zdro365pa	54	34	GW32	GW32	NNP
work_dqud2adhprei3jnj4zdro365pa	54	35	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	54	36	recent	recent	JJ
work_dqud2adhprei3jnj4zdro365pa	54	37	hybrid	hybrid	NN
work_dqud2adhprei3jnj4zdro365pa	54	38	functionals33	functionals33	-LRB-
work_dqud2adhprei3jnj4zdro365pa	54	39	computationally	computationally	RB
work_dqud2adhprei3jnj4zdro365pa	54	40	prohibitive	prohibitive	JJ
work_dqud2adhprei3jnj4zdro365pa	54	41	.	.	.
work_dqud2adhprei3jnj4zdro365pa	55	1	To	to	TO
work_dqud2adhprei3jnj4zdro365pa	55	2	estimate	estimate	VB
work_dqud2adhprei3jnj4zdro365pa	55	3	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	55	4	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	55	5	transitions	transition	NNS
work_dqud2adhprei3jnj4zdro365pa	55	6	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	55	7	adopted	adopt	VBD
work_dqud2adhprei3jnj4zdro365pa	55	8	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	55	9	affordable	affordable	JJ
work_dqud2adhprei3jnj4zdro365pa	55	10	method	method	NN
work_dqud2adhprei3jnj4zdro365pa	55	11	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	55	12	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	55	13	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	55	14	for-	for-	JJ
work_dqud2adhprei3jnj4zdro365pa	55	15	malism	malism	NN
work_dqud2adhprei3jnj4zdro365pa	55	16	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	55	17	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	55	18	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	55	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	55	20	successfully	successfully	RB
work_dqud2adhprei3jnj4zdro365pa	55	21	applied	apply	VBN
work_dqud2adhprei3jnj4zdro365pa	55	22	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	55	23	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	55	24	variety	variety	NN
work_dqud2adhprei3jnj4zdro365pa	55	25	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	55	26	wide	wide	JJ
work_dqud2adhprei3jnj4zdro365pa	55	27	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	55	28	semiconductors	semiconductor	NNS
work_dqud2adhprei3jnj4zdro365pa	55	29	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	55	30	insulators34	insulators34	NNS
work_dqud2adhprei3jnj4zdro365pa	55	31	that	that	WDT
work_dqud2adhprei3jnj4zdro365pa	55	32	required	require	VBD
work_dqud2adhprei3jnj4zdro365pa	55	33	some	some	DT
work_dqud2adhprei3jnj4zdro365pa	55	34	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	55	35	posteriori	posteriori	NN
work_dqud2adhprei3jnj4zdro365pa	55	36	corrections35	corrections35	NN
work_dqud2adhprei3jnj4zdro365pa	55	37	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	55	38	remove	remove	VB
work_dqud2adhprei3jnj4zdro365pa	55	39	long	long	RB
work_dqud2adhprei3jnj4zdro365pa	55	40	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	55	41	ranged	ranged	JJ
work_dqud2adhprei3jnj4zdro365pa	55	42	Coulomb	Coulomb	NNP
work_dqud2adhprei3jnj4zdro365pa	55	43	interac-	interac-	NN
work_dqud2adhprei3jnj4zdro365pa	55	44	tions	tion	NNS
work_dqud2adhprei3jnj4zdro365pa	55	45	between	between	IN
work_dqud2adhprei3jnj4zdro365pa	55	46	charged	charge	VBN
work_dqud2adhprei3jnj4zdro365pa	55	47	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	55	48	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	55	49	images	image	NNS
work_dqud2adhprei3jnj4zdro365pa	55	50	due	due	JJ
work_dqud2adhprei3jnj4zdro365pa	55	51	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	55	52	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	55	53	periodic	periodic	JJ
work_dqud2adhprei3jnj4zdro365pa	55	54	boundary	boundary	JJ
work_dqud2adhprei3jnj4zdro365pa	55	55	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	55	56	.	.	.
work_dqud2adhprei3jnj4zdro365pa	56	1	More	more	RBR
work_dqud2adhprei3jnj4zdro365pa	56	2	specifically	specifically	RB
work_dqud2adhprei3jnj4zdro365pa	56	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	56	4	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	56	5	combined	combine	VBD
work_dqud2adhprei3jnj4zdro365pa	56	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	56	7	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	56	8	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	56	9	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	56	10	V	v	NN
work_dqud2adhprei3jnj4zdro365pa	56	11	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	56	12	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	56	13	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	56	14	Vhollow	Vhollow	NNP
work_dqud2adhprei3jnj4zdro365pa	56	15	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	56	16	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	56	17	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	56	18	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	56	19	neutral	neutral	JJ
work_dqud2adhprei3jnj4zdro365pa	56	20	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	56	21	negative	negative	JJ
work_dqud2adhprei3jnj4zdro365pa	56	22	charge	charge	NN
work_dqud2adhprei3jnj4zdro365pa	56	23	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	56	24	,	,	,
work_dqud2adhprei3jnj4zdro365pa	56	25	namely	namely	RB
work_dqud2adhprei3jnj4zdro365pa	56	26	q	q	NNP
work_dqud2adhprei3jnj4zdro365pa	56	27	=	=	SYM
work_dqud2adhprei3jnj4zdro365pa	56	28	0	0	CD
work_dqud2adhprei3jnj4zdro365pa	56	29	,	,	,
work_dqud2adhprei3jnj4zdro365pa	56	30	−1	−1	NNP
work_dqud2adhprei3jnj4zdro365pa	56	31	,	,	,
work_dqud2adhprei3jnj4zdro365pa	56	32	−2	−2	NNP
work_dqud2adhprei3jnj4zdro365pa	56	33	.	.	.
work_dqud2adhprei3jnj4zdro365pa	57	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	57	2	vacancy	vacancy	NN
work_dqud2adhprei3jnj4zdro365pa	57	3	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	57	4	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	57	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	57	6	Ef	Ef	NNP
work_dqud2adhprei3jnj4zdro365pa	57	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	57	8	were	be	VBD
work_dqud2adhprei3jnj4zdro365pa	57	9	calculated	calculate	VBN
work_dqud2adhprei3jnj4zdro365pa	57	10	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	57	11	both	both	CC
work_dqud2adhprei3jnj4zdro365pa	57	12	S	s	JJ
work_dqud2adhprei3jnj4zdro365pa	57	13	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	57	14	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	57	15	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	57	16	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	57	17	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	57	18	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	57	19	growth	growth	NN
work_dqud2adhprei3jnj4zdro365pa	57	20	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	57	21	.	.	.
work_dqud2adhprei3jnj4zdro365pa	58	1	Results	result	NNS
work_dqud2adhprei3jnj4zdro365pa	58	2	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	58	3	summarised	summarise	VBN
work_dqud2adhprei3jnj4zdro365pa	58	4	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	58	5	Table	table	NN
work_dqud2adhprei3jnj4zdro365pa	58	6	I	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	58	7	where	where	WRB
work_dqud2adhprei3jnj4zdro365pa	58	8	Ef	Ef	NNP
work_dqud2adhprei3jnj4zdro365pa	58	9	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	58	10	V	V	NNP
work_dqud2adhprei3jnj4zdro365pa	58	11	bulk	bulk	NN
work_dqud2adhprei3jnj4zdro365pa	58	12	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	58	13	calculated	calculate	VBD
work_dqud2adhprei3jnj4zdro365pa	58	14	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	58	15	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	58	16	bulk	bulk	NN
work_dqud2adhprei3jnj4zdro365pa	58	17	contain-	contain-	NN
work_dqud2adhprei3jnj4zdro365pa	58	18	ing	e	VBG
work_dqud2adhprei3jnj4zdro365pa	58	19	up	up	RP
work_dqud2adhprei3jnj4zdro365pa	58	20	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	58	21	128	128	CD
work_dqud2adhprei3jnj4zdro365pa	58	22	lattice	lattice	NN
work_dqud2adhprei3jnj4zdro365pa	58	23	sites	site	NNS
work_dqud2adhprei3jnj4zdro365pa	58	24	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	58	25	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	58	26	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	58	27	reference	reference	NN
work_dqud2adhprei3jnj4zdro365pa	58	28	.	.	.
work_dqud2adhprei3jnj4zdro365pa	59	1	Formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	59	2	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	59	3	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	59	4	neutral	neutral	JJ
work_dqud2adhprei3jnj4zdro365pa	59	5	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	59	6	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	59	7	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	59	8	lower	low	JJR
work_dqud2adhprei3jnj4zdro365pa	59	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	59	10	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	59	11	expected	expect	VBN
work_dqud2adhprei3jnj4zdro365pa	59	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	59	13	than	than	IN
work_dqud2adhprei3jnj4zdro365pa	59	14	those	those	DT
work_dqud2adhprei3jnj4zdro365pa	59	15	calculated	calculate	VBN
work_dqud2adhprei3jnj4zdro365pa	59	16	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	59	17	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	59	18	bulk	bulk	NN
work_dqud2adhprei3jnj4zdro365pa	59	19	.	.	.
work_dqud2adhprei3jnj4zdro365pa	60	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	60	2	value	value	NN
work_dqud2adhprei3jnj4zdro365pa	60	3	obtained	obtain	VBN
work_dqud2adhprei3jnj4zdro365pa	60	4	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	60	5	similar	similar	JJ
work_dqud2adhprei3jnj4zdro365pa	60	6	studies,36	studies,36	NNS
work_dqud2adhprei3jnj4zdro365pa	60	7	2.26	2.26	CD
work_dqud2adhprei3jnj4zdro365pa	60	8	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	60	9	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	60	10	neutral	neutral	JJ
work_dqud2adhprei3jnj4zdro365pa	60	11	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	60	12	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	60	13	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	60	14	hexagonal	hexagonal	JJ
work_dqud2adhprei3jnj4zdro365pa	60	15	bulk	bulk	NN
work_dqud2adhprei3jnj4zdro365pa	60	16	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	60	17	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	60	18	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	60	19	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	60	20	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	60	21	,	,	,
work_dqud2adhprei3jnj4zdro365pa	60	22	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	60	23	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	60	24	fair	fair	JJ
work_dqud2adhprei3jnj4zdro365pa	60	25	agreement	agreement	NN
work_dqud2adhprei3jnj4zdro365pa	60	26	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	60	27	our	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	60	28	model	model	NN
work_dqud2adhprei3jnj4zdro365pa	60	29	.	.	.
work_dqud2adhprei3jnj4zdro365pa	61	1	Discrepancy	discrepancy	NN
work_dqud2adhprei3jnj4zdro365pa	61	2	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	61	3	due	due	JJ
work_dqud2adhprei3jnj4zdro365pa	61	4	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	61	5	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	61	6	different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	61	7	chemical	chemical	NN
work_dqud2adhprei3jnj4zdro365pa	61	8	potential	potential	NN
work_dqud2adhprei3jnj4zdro365pa	61	9	adopted	adopt	VBN
work_dqud2adhprei3jnj4zdro365pa	61	10	.	.	.
work_dqud2adhprei3jnj4zdro365pa	62	1	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	62	2	average	average	JJ
work_dqud2adhprei3jnj4zdro365pa	62	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	62	4	vacancy	vacancy	NN
work_dqud2adhprei3jnj4zdro365pa	62	5	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	62	6	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	62	7	calculated	calculate	VBN
work_dqud2adhprei3jnj4zdro365pa	62	8	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	62	9	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	62	10	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	62	11	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	62	12	growth	growth	NN
work_dqud2adhprei3jnj4zdro365pa	62	13	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	62	14	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	62	15	∼3.59	∼3.59	NNP
work_dqud2adhprei3jnj4zdro365pa	62	16	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	62	17	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	62	18	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	62	19	higher	high	JJR
work_dqud2adhprei3jnj4zdro365pa	62	20	than	than	IN
work_dqud2adhprei3jnj4zdro365pa	62	21	those	those	DT
work_dqud2adhprei3jnj4zdro365pa	62	22	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	62	23	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	62	24	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	62	25	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	62	26	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	62	27	∼2.40	∼2.40	NNP
work_dqud2adhprei3jnj4zdro365pa	62	28	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	62	29	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	62	30	.	.	.
work_dqud2adhprei3jnj4zdro365pa	63	1	Such	such	JJ
work_dqud2adhprei3jnj4zdro365pa	63	2	values	value	NNS
work_dqud2adhprei3jnj4zdro365pa	63	3	related	relate	VBN
work_dqud2adhprei3jnj4zdro365pa	63	4	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	63	5	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	63	6	non	non	AFX
work_dqud2adhprei3jnj4zdro365pa	63	7	entropic	entropic	JJ
work_dqud2adhprei3jnj4zdro365pa	63	8	part	part	NN
work_dqud2adhprei3jnj4zdro365pa	63	9	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	63	10	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	63	11	Gibbs	Gibbs	NNPS
work_dqud2adhprei3jnj4zdro365pa	63	12	free	free	JJ
work_dqud2adhprei3jnj4zdro365pa	63	13	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	63	14	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	63	15	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	63	16	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	NNP
work_dqud2adhprei3jnj4zdro365pa	63	17	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	63	18	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	63	19	4	4	CD
work_dqud2adhprei3jnj4zdro365pa	63	20	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	63	21	et	et	NNP
work_dqud2adhprei3jnj4zdro365pa	63	22	al	al	NNP
work_dqud2adhprei3jnj4zdro365pa	63	23	.	.	.
work_dqud2adhprei3jnj4zdro365pa	64	1	AIP	AIP	NNP
work_dqud2adhprei3jnj4zdro365pa	64	2	Advances	Advances	NNP
work_dqud2adhprei3jnj4zdro365pa	64	3	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	64	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	64	5	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	64	6	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	64	7	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	64	8	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	64	9	FIG	FIG	NNP
work_dqud2adhprei3jnj4zdro365pa	64	10	.	.	.
work_dqud2adhprei3jnj4zdro365pa	65	1	2	2	LS
work_dqud2adhprei3jnj4zdro365pa	65	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	66	1	Vhollow	Vhollow	NNP
work_dqud2adhprei3jnj4zdro365pa	66	2	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	66	3	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	66	4	Top	Top	NNP
work_dqud2adhprei3jnj4zdro365pa	66	5	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	66	6	view	view	NN
work_dqud2adhprei3jnj4zdro365pa	66	7	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	66	8	unrelaxed	unrelaxed	JJ
work_dqud2adhprei3jnj4zdro365pa	66	9	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	66	10	a	a	LS
work_dqud2adhprei3jnj4zdro365pa	66	11	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	66	12	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	66	13	relaxed	relaxed	JJ
work_dqud2adhprei3jnj4zdro365pa	66	14	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	66	15	b	b	NN
work_dqud2adhprei3jnj4zdro365pa	66	16	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	66	17	geometry	geometry	NN
work_dqud2adhprei3jnj4zdro365pa	66	18	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	66	19	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	66	20	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	66	21	{	{	-LRB-
work_dqud2adhprei3jnj4zdro365pa	66	22	10.0	10.0	CD
work_dqud2adhprei3jnj4zdro365pa	66	23	}	}	-RRB-
work_dqud2adhprei3jnj4zdro365pa	66	24	defective	defective	JJ
work_dqud2adhprei3jnj4zdro365pa	66	25	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	66	26	.	.	.
work_dqud2adhprei3jnj4zdro365pa	67	1	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	67	2	red	red	JJ
work_dqud2adhprei3jnj4zdro365pa	67	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	67	4	vacancy	vacancy	NN
work_dqud2adhprei3jnj4zdro365pa	67	5	surrounding	surround	VBG
work_dqud2adhprei3jnj4zdro365pa	67	6	bonds	bond	NNS
work_dqud2adhprei3jnj4zdro365pa	67	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	68	1	Total	total	JJ
work_dqud2adhprei3jnj4zdro365pa	68	2	DOS	DOS	NNP
work_dqud2adhprei3jnj4zdro365pa	68	3	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	68	4	clean	clean	JJ
work_dqud2adhprei3jnj4zdro365pa	68	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	68	6	shaded	shaded	JJ
work_dqud2adhprei3jnj4zdro365pa	68	7	area	area	NN
work_dqud2adhprei3jnj4zdro365pa	68	8	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	68	9	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	68	10	defective	defective	JJ
work_dqud2adhprei3jnj4zdro365pa	68	11	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	68	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	68	13	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	68	14	PDOS	PDOS	NNP
work_dqud2adhprei3jnj4zdro365pa	68	15	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	68	16	S-3p	S-3p	NNP
work_dqud2adhprei3jnj4zdro365pa	68	17	dangling	dangle	VBG
work_dqud2adhprei3jnj4zdro365pa	68	18	bonds	bond	NNS
work_dqud2adhprei3jnj4zdro365pa	68	19	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	68	20	c	c	NN
work_dqud2adhprei3jnj4zdro365pa	68	21	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	68	22	.	.	.
work_dqud2adhprei3jnj4zdro365pa	69	1	allow	allow	VB
work_dqud2adhprei3jnj4zdro365pa	69	2	us	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	69	3	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	69	4	have	have	VB
work_dqud2adhprei3jnj4zdro365pa	69	5	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	69	6	estimate	estimate	NN
work_dqud2adhprei3jnj4zdro365pa	69	7	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	69	8	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	69	9	concentration	concentration	NN
work_dqud2adhprei3jnj4zdro365pa	69	10	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	69	11	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	69	12	per	per	IN
work_dqud2adhprei3jnj4zdro365pa	69	13	cm3	cm3	NNS
work_dqud2adhprei3jnj4zdro365pa	69	14	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	69	15	number	number	NN
work_dqud2adhprei3jnj4zdro365pa	69	16	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	69	17	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	69	18	/	/	SYM
work_dqud2adhprei3jnj4zdro365pa	69	19	number	number	NN
work_dqud2adhprei3jnj4zdro365pa	69	20	lattice	lattice	NN
work_dqud2adhprei3jnj4zdro365pa	69	21	sites	site	NNS
work_dqud2adhprei3jnj4zdro365pa	69	22	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	69	23	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	69	24	thermal	thermal	JJ
work_dqud2adhprei3jnj4zdro365pa	69	25	equilibrium	equilibrium	NN
work_dqud2adhprei3jnj4zdro365pa	69	26	through	through	IN
work_dqud2adhprei3jnj4zdro365pa	69	27	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	69	28	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	69	29	Law	Law	NNP
work_dqud2adhprei3jnj4zdro365pa	69	30	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	69	31	Mass	Mass	NNP
work_dqud2adhprei3jnj4zdro365pa	69	32	Action	Action	NNP
work_dqud2adhprei3jnj4zdro365pa	69	33	,	,	,
work_dqud2adhprei3jnj4zdro365pa	69	34	i.e.	i.e.	FW
work_dqud2adhprei3jnj4zdro365pa	70	1	ceq	ceq	NNP
work_dqud2adhprei3jnj4zdro365pa	70	2	∝e	∝e	NNP
work_dqud2adhprei3jnj4zdro365pa	70	3	−Ef	−Ef	NNP
work_dqud2adhprei3jnj4zdro365pa	70	4	/kB	/kB	.
work_dqud2adhprei3jnj4zdro365pa	70	5	T	t	NN
work_dqud2adhprei3jnj4zdro365pa	70	6	.	.	.
work_dqud2adhprei3jnj4zdro365pa	71	1	It	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	71	2	turns	turn	VBZ
work_dqud2adhprei3jnj4zdro365pa	71	3	out	out	RP
work_dqud2adhprei3jnj4zdro365pa	71	4	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	71	5	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	71	6	calcination	calcination	NN
work_dqud2adhprei3jnj4zdro365pa	71	7	temperature	temperature	NN
work_dqud2adhprei3jnj4zdro365pa	71	8	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	71	9	∼600	∼600	NNP
work_dqud2adhprei3jnj4zdro365pa	71	10	◦	◦	NNP
work_dqud2adhprei3jnj4zdro365pa	71	11	C	C	NNP
work_dqud2adhprei3jnj4zdro365pa	71	12	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	71	13	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	71	14	ratio	ratio	NN
work_dqud2adhprei3jnj4zdro365pa	71	15	ceq[S	ceq[s	NN
work_dqud2adhprei3jnj4zdro365pa	71	16	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	71	17	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	71	18	]	]	-RRB-
work_dqud2adhprei3jnj4zdro365pa	71	19	≈	≈	NNP
work_dqud2adhprei3jnj4zdro365pa	71	20	10	10	CD
work_dqud2adhprei3jnj4zdro365pa	71	21	9	9	CD
work_dqud2adhprei3jnj4zdro365pa	71	22	cm−3	cm−3	NN
work_dqud2adhprei3jnj4zdro365pa	71	23	vs.	vs.	FW
work_dqud2adhprei3jnj4zdro365pa	71	24	ceq[Cd	ceq[Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	71	25	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	71	26	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	71	27	]	]	-RRB-
work_dqud2adhprei3jnj4zdro365pa	71	28	≈	≈	NNP
work_dqud2adhprei3jnj4zdro365pa	71	29	102	102	CD
work_dqud2adhprei3jnj4zdro365pa	71	30	cm−3	cm−3	NNP
work_dqud2adhprei3jnj4zdro365pa	71	31	emphasizes	emphasize	VBZ
work_dqud2adhprei3jnj4zdro365pa	71	32	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	71	33	yellow	yellow	JJ
work_dqud2adhprei3jnj4zdro365pa	71	34	pigments	pigment	NNS
work_dqud2adhprei3jnj4zdro365pa	71	35	grown	grow	VBN
work_dqud2adhprei3jnj4zdro365pa	71	36	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	71	37	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	71	38	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	71	39	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	71	40	environmental	environmental	JJ
work_dqud2adhprei3jnj4zdro365pa	71	41	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	71	42	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	71	43	more	more	RBR
work_dqud2adhprei3jnj4zdro365pa	71	44	stable	stable	JJ
work_dqud2adhprei3jnj4zdro365pa	71	45	than	than	IN
work_dqud2adhprei3jnj4zdro365pa	71	46	those	those	DT
work_dqud2adhprei3jnj4zdro365pa	71	47	created	create	VBN
work_dqud2adhprei3jnj4zdro365pa	71	48	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	71	49	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	71	50	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	71	51	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	71	52	.	.	.
work_dqud2adhprei3jnj4zdro365pa	72	1	We	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	72	2	found	find	VBD
work_dqud2adhprei3jnj4zdro365pa	72	3	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	72	4	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	72	5	acceptor	acceptor	NN
work_dqud2adhprei3jnj4zdro365pa	72	6	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	72	7	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	72	8	PL	PL	NNP
work_dqud2adhprei3jnj4zdro365pa	72	9	measurements	measurement	NNS
work_dqud2adhprei3jnj4zdro365pa	72	10	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	72	11	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	72	12	hexagonal	hexagonal	NNP
work_dqud2adhprei3jnj4zdro365pa	72	13	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	72	14	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	72	15	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	72	16	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	72	17	:	:	:
work_dqud2adhprei3jnj4zdro365pa	72	18	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	72	19	experimental	experimental	JJ
work_dqud2adhprei3jnj4zdro365pa	72	20	data	datum	NNS
work_dqud2adhprei3jnj4zdro365pa	72	21	,	,	,
work_dqud2adhprei3jnj4zdro365pa	72	22	beside	beside	IN
work_dqud2adhprei3jnj4zdro365pa	72	23	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	72	24	narrow	narrow	JJ
work_dqud2adhprei3jnj4zdro365pa	72	25	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	72	26	peak	peak	NN
work_dqud2adhprei3jnj4zdro365pa	72	27	centered	center	VBD
work_dqud2adhprei3jnj4zdro365pa	72	28	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	72	29	2.41	2.41	CD
work_dqud2adhprei3jnj4zdro365pa	72	30	eV	eV	.
work_dqud2adhprei3jnj4zdro365pa	72	31	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	72	32	see	see	VB
work_dqud2adhprei3jnj4zdro365pa	72	33	supplementary	supplementary	JJ
work_dqud2adhprei3jnj4zdro365pa	72	34	material	material	NN
work_dqud2adhprei3jnj4zdro365pa	72	35	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	72	36	ascribed	ascribe	VBN
work_dqud2adhprei3jnj4zdro365pa	72	37	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	72	38	radiative	radiative	JJ
work_dqud2adhprei3jnj4zdro365pa	72	39	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	72	40	via	via	IN
work_dqud2adhprei3jnj4zdro365pa	72	41	near	near	IN
work_dqud2adhprei3jnj4zdro365pa	72	42	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	72	43	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	72	44	edge	edge	NN
work_dqud2adhprei3jnj4zdro365pa	72	45	recombination	recombination	NN
work_dqud2adhprei3jnj4zdro365pa	72	46	,	,	,
work_dqud2adhprei3jnj4zdro365pa	72	47	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	72	48	have	have	VBP
work_dqud2adhprei3jnj4zdro365pa	72	49	detected	detect	VBN
work_dqud2adhprei3jnj4zdro365pa	72	50	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	72	51	broad	broad	JJ
work_dqud2adhprei3jnj4zdro365pa	72	52	near-	near-	NN
work_dqud2adhprei3jnj4zdro365pa	72	53	infrared	infrare	VBN
work_dqud2adhprei3jnj4zdro365pa	72	54	asymmetric	asymmetric	JJ
work_dqud2adhprei3jnj4zdro365pa	72	55	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	72	56	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	72	57	generically	generically	RB
work_dqud2adhprei3jnj4zdro365pa	72	58	centered	center	VBN
work_dqud2adhprei3jnj4zdro365pa	72	59	around	around	IN
work_dqud2adhprei3jnj4zdro365pa	72	60	1.57	1.57	CD
work_dqud2adhprei3jnj4zdro365pa	72	61	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	72	62	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	72	63	,	,	,
work_dqud2adhprei3jnj4zdro365pa	72	64	ascribed	ascribe	VBN
work_dqud2adhprei3jnj4zdro365pa	72	65	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	72	66	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	72	67	presence	presence	NN
work_dqud2adhprei3jnj4zdro365pa	72	68	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	72	69	multiple	multiple	JJ
work_dqud2adhprei3jnj4zdro365pa	72	70	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	72	71	levels	level	NNS
work_dqud2adhprei3jnj4zdro365pa	72	72	inducing	induce	VBG
work_dqud2adhprei3jnj4zdro365pa	72	73	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	72	74	transitions	transition	NNS
work_dqud2adhprei3jnj4zdro365pa	72	75	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	72	76	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	72	77	range	range	NN
work_dqud2adhprei3jnj4zdro365pa	72	78	1.4	1.4	CD
work_dqud2adhprei3jnj4zdro365pa	72	79	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	72	80	1.8	1.8	CD
work_dqud2adhprei3jnj4zdro365pa	72	81	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	72	82	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	72	83	Figure	figure	NN
work_dqud2adhprei3jnj4zdro365pa	72	84	4	4	CD
work_dqud2adhprei3jnj4zdro365pa	72	85	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	72	86	.	.	.
work_dqud2adhprei3jnj4zdro365pa	73	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	73	2	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	73	3	lifetime	lifetime	NN
work_dqud2adhprei3jnj4zdro365pa	73	4	τ	τ	NNP
work_dqud2adhprei3jnj4zdro365pa	73	5	=	=	SYM
work_dqud2adhprei3jnj4zdro365pa	73	6	6.0	6.0	CD
work_dqud2adhprei3jnj4zdro365pa	73	7	µs	µ	NNS
work_dqud2adhprei3jnj4zdro365pa	73	8	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	73	9	see	see	VB
work_dqud2adhprei3jnj4zdro365pa	73	10	supplementary	supplementary	NNP
work_dqud2adhprei3jnj4zdro365pa	73	11	material	material	NN
work_dqud2adhprei3jnj4zdro365pa	73	12	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	73	13	confirms	confirm	VBZ
work_dqud2adhprei3jnj4zdro365pa	73	14	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	73	15	this	this	DT
work_dqud2adhprei3jnj4zdro365pa	73	16	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	73	17	transition	transition	NN
work_dqud2adhprei3jnj4zdro365pa	73	18	occurs	occur	VBZ
work_dqud2adhprei3jnj4zdro365pa	73	19	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	73	20	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	73	21	state	state	NN
work_dqud2adhprei3jnj4zdro365pa	73	22	levels	level	NNS
work_dqud2adhprei3jnj4zdro365pa	73	23	.	.	.
work_dqud2adhprei3jnj4zdro365pa	74	1	Also	also	RB
work_dqud2adhprei3jnj4zdro365pa	74	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	74	3	part	part	NN
work_dqud2adhprei3jnj4zdro365pa	74	4	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	74	5	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	74	6	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	74	7	centered	center	VBN
work_dqud2adhprei3jnj4zdro365pa	74	8	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	74	9	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	74	10	lower	low	JJR
work_dqud2adhprei3jnj4zdro365pa	74	11	than	than	IN
work_dqud2adhprei3jnj4zdro365pa	74	12	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	74	13	ones	one	NNS
work_dqud2adhprei3jnj4zdro365pa	74	14	achievable	achievable	JJ
work_dqud2adhprei3jnj4zdro365pa	74	15	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	74	16	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	74	17	available	available	JJ
work_dqud2adhprei3jnj4zdro365pa	74	18	detector	detector	NN
work_dqud2adhprei3jnj4zdro365pa	74	19	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	74	20	>	>	XX
work_dqud2adhprei3jnj4zdro365pa	74	21	1.3	1.3	CD
work_dqud2adhprei3jnj4zdro365pa	74	22	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	74	23	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	74	24	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	74	25	visible	visible	JJ
work_dqud2adhprei3jnj4zdro365pa	74	26	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	74	27	Figure	Figure	NNP
work_dqud2adhprei3jnj4zdro365pa	74	28	4	4	CD
work_dqud2adhprei3jnj4zdro365pa	74	29	.	.	.
work_dqud2adhprei3jnj4zdro365pa	75	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	75	2	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	75	3	experimental	experimental	JJ
work_dqud2adhprei3jnj4zdro365pa	75	4	results	result	NNS
work_dqud2adhprei3jnj4zdro365pa	75	5	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	75	6	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	75	7	good	good	JJ
work_dqud2adhprei3jnj4zdro365pa	75	8	agreement	agreement	NN
work_dqud2adhprei3jnj4zdro365pa	75	9	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	75	10	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	75	11	few	few	JJ
work_dqud2adhprei3jnj4zdro365pa	75	12	research	research	NN
work_dqud2adhprei3jnj4zdro365pa	75	13	studies	study	NNS
work_dqud2adhprei3jnj4zdro365pa	75	14	carried	carry	VBN
work_dqud2adhprei3jnj4zdro365pa	75	15	out	out	RP
work_dqud2adhprei3jnj4zdro365pa	75	16	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	75	17	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	75	18	near	near	RB
work_dqud2adhprei3jnj4zdro365pa	75	19	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	75	20	infrared	infrared	JJ
work_dqud2adhprei3jnj4zdro365pa	75	21	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	75	22	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	75	23	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	75	24	cadmium-	cadmium-	NNP
work_dqud2adhprei3jnj4zdro365pa	75	25	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	75	26	pigments	pigment	NNS
work_dqud2adhprei3jnj4zdro365pa	75	27	associated	associate	VBN
work_dqud2adhprei3jnj4zdro365pa	75	28	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	75	29	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	75	30	states.18–20	states.18–20	NNP
work_dqud2adhprei3jnj4zdro365pa	75	31	Rosi	Rosi	NNP
work_dqud2adhprei3jnj4zdro365pa	75	32	et	et	FW
work_dqud2adhprei3jnj4zdro365pa	75	33	al	al	NNP
work_dqud2adhprei3jnj4zdro365pa	75	34	.	.	.
work_dqud2adhprei3jnj4zdro365pa	75	35	,20	,20	VB
work_dqud2adhprei3jnj4zdro365pa	75	36	following	follow	VBG
work_dqud2adhprei3jnj4zdro365pa	75	37	analysis	analysis	NN
work_dqud2adhprei3jnj4zdro365pa	75	38	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	75	39	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	75	40	commercial	commercial	JJ
work_dqud2adhprei3jnj4zdro365pa	75	41	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	75	42	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	75	43	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	75	44	hexagonal	hexagonal	JJ
work_dqud2adhprei3jnj4zdro365pa	75	45	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	75	46	,	,	,
work_dqud2adhprei3jnj4zdro365pa	75	47	has	have	VBZ
work_dqud2adhprei3jnj4zdro365pa	75	48	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	75	49	two	two	CD
work_dqud2adhprei3jnj4zdro365pa	75	50	distinct	distinct	JJ
work_dqud2adhprei3jnj4zdro365pa	75	51	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	75	52	state	state	NN
work_dqud2adhprei3jnj4zdro365pa	75	53	peaks	peak	NNS
work_dqud2adhprei3jnj4zdro365pa	75	54	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	75	55	1.24	1.24	CD
work_dqud2adhprei3jnj4zdro365pa	75	56	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	75	57	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	75	58	1.64	1.64	CD
work_dqud2adhprei3jnj4zdro365pa	75	59	eV.	eV.	NNS
work_dqud2adhprei3jnj4zdro365pa	76	1	Interestingly	interestingly	RB
work_dqud2adhprei3jnj4zdro365pa	76	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	76	3	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	76	4	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	76	5	analytical	analytical	JJ
work_dqud2adhprei3jnj4zdro365pa	76	6	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	76	7	grade	grade	NN
work_dqud2adhprei3jnj4zdro365pa	76	8	hexagonal	hexagonal	NNP
work_dqud2adhprei3jnj4zdro365pa	76	9	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	76	10	reference	reference	NN
work_dqud2adhprei3jnj4zdro365pa	76	11	sample	sample	NN
work_dqud2adhprei3jnj4zdro365pa	76	12	they	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	76	13	detected	detect	VBD
work_dqud2adhprei3jnj4zdro365pa	76	14	only	only	RB
work_dqud2adhprei3jnj4zdro365pa	76	15	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	76	16	single	single	JJ
work_dqud2adhprei3jnj4zdro365pa	76	17	peak	peak	NN
work_dqud2adhprei3jnj4zdro365pa	76	18	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	76	19	1.57	1.57	CD
work_dqud2adhprei3jnj4zdro365pa	76	20	eV.	eV.	NNS
work_dqud2adhprei3jnj4zdro365pa	77	1	Commenting	comment	VBG
work_dqud2adhprei3jnj4zdro365pa	77	2	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	77	3	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	77	4	observed	observed	JJ
work_dqud2adhprei3jnj4zdro365pa	77	5	difference	difference	NN
work_dqud2adhprei3jnj4zdro365pa	77	6	,	,	,
work_dqud2adhprei3jnj4zdro365pa	77	7	authors	author	NNS
work_dqud2adhprei3jnj4zdro365pa	77	8	suggested	suggest	VBD
work_dqud2adhprei3jnj4zdro365pa	77	9	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	77	10	crystalline	crystalline	JJ
work_dqud2adhprei3jnj4zdro365pa	77	11	composition	composition	NN
work_dqud2adhprei3jnj4zdro365pa	77	12	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	77	13	not	not	RB
work_dqud2adhprei3jnj4zdro365pa	77	14	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	77	15	only	only	JJ
work_dqud2adhprei3jnj4zdro365pa	77	16	factor	factor	NN
work_dqud2adhprei3jnj4zdro365pa	77	17	affecting	affect	VBG
work_dqud2adhprei3jnj4zdro365pa	77	18	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	77	19	PL	PL	NNP
work_dqud2adhprei3jnj4zdro365pa	77	20	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	77	21	properties	property	NNS
work_dqud2adhprei3jnj4zdro365pa	77	22	but	but	CC
work_dqud2adhprei3jnj4zdro365pa	77	23	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	77	24	location	location	NN
work_dqud2adhprei3jnj4zdro365pa	77	25	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	77	26	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	77	27	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	77	28	bulk	bulk	NNP
work_dqud2adhprei3jnj4zdro365pa	77	29	vs	vs	IN
work_dqud2adhprei3jnj4zdro365pa	77	30	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	77	31	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	77	32	,	,	,
work_dqud2adhprei3jnj4zdro365pa	77	33	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	77	34	concentration	concentration	NN
work_dqud2adhprei3jnj4zdro365pa	77	35	,	,	,
work_dqud2adhprei3jnj4zdro365pa	77	36	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	77	37	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	77	38	defect	defect	JJ
work_dqud2adhprei3jnj4zdro365pa	77	39	structure	structure	NN
work_dqud2adhprei3jnj4zdro365pa	77	40	itself	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	77	41	play	play	VBP
work_dqud2adhprei3jnj4zdro365pa	77	42	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	77	43	relevant	relevant	JJ
work_dqud2adhprei3jnj4zdro365pa	77	44	role	role	NN
work_dqud2adhprei3jnj4zdro365pa	77	45	.	.	.
work_dqud2adhprei3jnj4zdro365pa	78	1	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	78	2	Cesaratto	Cesaratto	NNP
work_dqud2adhprei3jnj4zdro365pa	78	3	et	et	NNP
work_dqud2adhprei3jnj4zdro365pa	78	4	al.19	al.19	NNP
work_dqud2adhprei3jnj4zdro365pa	78	5	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	78	6	kinetic	kinetic	JJ
work_dqud2adhprei3jnj4zdro365pa	78	7	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	78	8	properties	property	NNS
work_dqud2adhprei3jnj4zdro365pa	78	9	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	78	10	commercially	commercially	RB
work_dqud2adhprei3jnj4zdro365pa	78	11	available	available	JJ
work_dqud2adhprei3jnj4zdro365pa	78	12	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	78	13	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	78	14	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	78	15	pigments	pigment	NNS
work_dqud2adhprei3jnj4zdro365pa	78	16	has	have	VBZ
work_dqud2adhprei3jnj4zdro365pa	78	17	been	be	VBN
work_dqud2adhprei3jnj4zdro365pa	78	18	first	first	RB
work_dqud2adhprei3jnj4zdro365pa	78	19	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	78	20	,	,	,
work_dqud2adhprei3jnj4zdro365pa	78	21	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	78	22	near	near	RB
work_dqud2adhprei3jnj4zdro365pa	78	23	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	78	24	infrared	infrared	JJ
work_dqud2adhprei3jnj4zdro365pa	78	25	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	78	26	transitions	transition	NNS
work_dqud2adhprei3jnj4zdro365pa	78	27	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	78	28	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	78	29	state	state	NN
work_dqud2adhprei3jnj4zdro365pa	78	30	levels	level	NNS
work_dqud2adhprei3jnj4zdro365pa	78	31	being	be	VBG
work_dqud2adhprei3jnj4zdro365pa	78	32	characterized	characterize	VBN
work_dqud2adhprei3jnj4zdro365pa	78	33	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	78	34	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	78	35	lifetimes	lifetime	NNS
work_dqud2adhprei3jnj4zdro365pa	78	36	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	78	37	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	78	38	order	order	NN
work_dqud2adhprei3jnj4zdro365pa	78	39	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	78	40	tens	ten	NNS
work_dqud2adhprei3jnj4zdro365pa	78	41	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	78	42	microseconds	microsecond	NNS
work_dqud2adhprei3jnj4zdro365pa	78	43	uncorrelated	uncorrelated	JJ
work_dqud2adhprei3jnj4zdro365pa	78	44	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	78	45	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	78	46	chemical	chemical	NN
work_dqud2adhprei3jnj4zdro365pa	78	47	composition	composition	NN
work_dqud2adhprei3jnj4zdro365pa	78	48	.	.	.
work_dqud2adhprei3jnj4zdro365pa	79	1	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	NNP
work_dqud2adhprei3jnj4zdro365pa	79	2	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	NNP
work_dqud2adhprei3jnj4zdro365pa	79	3	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	79	4	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	79	5	5	5	CD
work_dqud2adhprei3jnj4zdro365pa	79	6	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	79	7	et	et	NNP
work_dqud2adhprei3jnj4zdro365pa	79	8	al	al	NNP
work_dqud2adhprei3jnj4zdro365pa	79	9	.	.	.
work_dqud2adhprei3jnj4zdro365pa	80	1	AIP	AIP	NNP
work_dqud2adhprei3jnj4zdro365pa	80	2	Advances	Advances	NNP
work_dqud2adhprei3jnj4zdro365pa	80	3	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	80	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	80	5	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	80	6	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	80	7	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	80	8	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	80	9	FIG	FIG	NNP
work_dqud2adhprei3jnj4zdro365pa	80	10	.	.	.
work_dqud2adhprei3jnj4zdro365pa	81	1	3	3	LS
work_dqud2adhprei3jnj4zdro365pa	81	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	82	1	ACBN0	ACBN0	NNP
work_dqud2adhprei3jnj4zdro365pa	82	2	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	82	3	V	V	NNP
work_dqud2adhprei3jnj4zdro365pa	82	4	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	82	5	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	82	6	:	:	:
work_dqud2adhprei3jnj4zdro365pa	82	7	Band	band	NN
work_dqud2adhprei3jnj4zdro365pa	82	8	structure	structure	NN
work_dqud2adhprei3jnj4zdro365pa	82	9	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	82	10	left	left	RB
work_dqud2adhprei3jnj4zdro365pa	82	11	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	82	12	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	82	13	DOS	DOS	NNP
work_dqud2adhprei3jnj4zdro365pa	82	14	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	82	15	right	right	UH
work_dqud2adhprei3jnj4zdro365pa	82	16	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	82	17	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	82	18	defective	defective	JJ
work_dqud2adhprei3jnj4zdro365pa	82	19	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	82	20	.	.	.
work_dqud2adhprei3jnj4zdro365pa	83	1	Red	red	JJ
work_dqud2adhprei3jnj4zdro365pa	83	2	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	83	3	black	black	JJ
work_dqud2adhprei3jnj4zdro365pa	83	4	curves	curve	NNS
work_dqud2adhprei3jnj4zdro365pa	83	5	represent	represent	VBP
work_dqud2adhprei3jnj4zdro365pa	83	6	spin	spin	NN
work_dqud2adhprei3jnj4zdro365pa	83	7	up	up	RB
work_dqud2adhprei3jnj4zdro365pa	83	8	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	83	9	down	down	IN
work_dqud2adhprei3jnj4zdro365pa	83	10	electron	electron	NN
work_dqud2adhprei3jnj4zdro365pa	83	11	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	83	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	83	13	respectively	respectively	RB
work_dqud2adhprei3jnj4zdro365pa	83	14	.	.	.
work_dqud2adhprei3jnj4zdro365pa	84	1	Dotted	dotted	JJ
work_dqud2adhprei3jnj4zdro365pa	84	2	line	line	NN
work_dqud2adhprei3jnj4zdro365pa	84	3	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	84	4	E=0	E=0	NNP
work_dqud2adhprei3jnj4zdro365pa	84	5	represents	represent	VBZ
work_dqud2adhprei3jnj4zdro365pa	84	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	84	7	Fermi	Fermi	NNP
work_dqud2adhprei3jnj4zdro365pa	84	8	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	84	9	.	.	.
work_dqud2adhprei3jnj4zdro365pa	85	1	Different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	85	2	colours	colour	NNS
work_dqud2adhprei3jnj4zdro365pa	85	3	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	85	4	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	85	5	DOS	DOS	NNP
work_dqud2adhprei3jnj4zdro365pa	85	6	refer	refer	VBP
work_dqud2adhprei3jnj4zdro365pa	85	7	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	85	8	different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	85	9	chemical	chemical	NN
work_dqud2adhprei3jnj4zdro365pa	85	10	elements	element	NNS
work_dqud2adhprei3jnj4zdro365pa	85	11	around	around	IN
work_dqud2adhprei3jnj4zdro365pa	85	12	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	85	13	vacancy	vacancy	NN
work_dqud2adhprei3jnj4zdro365pa	85	14	.	.	.
work_dqud2adhprei3jnj4zdro365pa	86	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	86	2	theoretical	theoretical	JJ
work_dqud2adhprei3jnj4zdro365pa	86	3	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	86	4	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	86	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	86	6	luminescence	luminescence	NN
work_dqud2adhprei3jnj4zdro365pa	86	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	86	8	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	86	9	�	�	NNP
work_dqud2adhprei3jnj4zdro365pa	86	10	opt	opt	NNP
work_dqud2adhprei3jnj4zdro365pa	86	11	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	86	12	q	q	NNP
work_dqud2adhprei3jnj4zdro365pa	86	13	/	/	SYM
work_dqud2adhprei3jnj4zdro365pa	86	14	q′	q′	NNP
work_dqud2adhprei3jnj4zdro365pa	86	15	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	86	16	due	due	IN
work_dqud2adhprei3jnj4zdro365pa	86	17	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	86	18	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	86	19	recombination	recombination	NN
work_dqud2adhprei3jnj4zdro365pa	86	20	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	86	21	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	86	22	defect	defect	JJ
work_dqud2adhprei3jnj4zdro365pa	86	23	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	86	24	into	into	IN
work_dqud2adhprei3jnj4zdro365pa	86	25	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	86	26	valence	valence	NN
work_dqud2adhprei3jnj4zdro365pa	86	27	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	86	28	maximum	maximum	NNP
work_dqud2adhprei3jnj4zdro365pa	86	29	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	86	30	VBM	VBM	NNP
work_dqud2adhprei3jnj4zdro365pa	86	31	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	86	32	was	be	VBD
work_dqud2adhprei3jnj4zdro365pa	86	33	calculated	calculate	VBN
work_dqud2adhprei3jnj4zdro365pa	86	34	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	86	35	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	86	36	linear	linear	JJ
work_dqud2adhprei3jnj4zdro365pa	86	37	combination	combination	NN
work_dqud2adhprei3jnj4zdro365pa	86	38	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	86	39	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	86	40	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	86	41	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	86	42	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	86	43	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	86	44	defect	defect	NN
work_dqud2adhprei3jnj4zdro365pa	86	45	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	86	46	different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	86	47	charge	charge	NN
work_dqud2adhprei3jnj4zdro365pa	86	48	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	86	49	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	86	50	illustrated	illustrate	VBN
work_dqud2adhprei3jnj4zdro365pa	86	51	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	86	52	Refs	Refs	NNP
work_dqud2adhprei3jnj4zdro365pa	86	53	.	.	.
work_dqud2adhprei3jnj4zdro365pa	87	1	34	34	CD
work_dqud2adhprei3jnj4zdro365pa	87	2	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	87	3	37	37	CD
work_dqud2adhprei3jnj4zdro365pa	87	4	.	.	.
work_dqud2adhprei3jnj4zdro365pa	88	1	Also	also	RB
work_dqud2adhprei3jnj4zdro365pa	88	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	88	3	spurious	spurious	JJ
work_dqud2adhprei3jnj4zdro365pa	88	4	electrostatic	electrostatic	JJ
work_dqud2adhprei3jnj4zdro365pa	88	5	interactions	interaction	NNS
work_dqud2adhprei3jnj4zdro365pa	88	6	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	88	7	charged	charge	VBN
work_dqud2adhprei3jnj4zdro365pa	88	8	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	88	9	due	due	IN
work_dqud2adhprei3jnj4zdro365pa	88	10	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	88	11	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	88	12	periodic	periodic	JJ
work_dqud2adhprei3jnj4zdro365pa	88	13	boundary	boundary	JJ
work_dqud2adhprei3jnj4zdro365pa	88	14	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	88	15	were	be	VBD
work_dqud2adhprei3jnj4zdro365pa	88	16	removed	remove	VBN
work_dqud2adhprei3jnj4zdro365pa	88	17	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	88	18	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	88	19	calculations	calculation	NNS
work_dqud2adhprei3jnj4zdro365pa	88	20	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	88	21	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	88	22	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	88	23	.	.	.
work_dqud2adhprei3jnj4zdro365pa	89	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	89	2	ACBN0	acbn0	JJ
work_dqud2adhprei3jnj4zdro365pa	89	3	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	89	4	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	89	5	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	89	6	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	89	7	Eg	Eg	NNP
work_dqud2adhprei3jnj4zdro365pa	89	8	=	=	SYM
work_dqud2adhprei3jnj4zdro365pa	89	9	2.30	2.30	CD
work_dqud2adhprei3jnj4zdro365pa	89	10	eV	ev	XX
work_dqud2adhprei3jnj4zdro365pa	89	11	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	89	12	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	89	13	here	here	RB
work_dqud2adhprei3jnj4zdro365pa	89	14	assumed	assume	VBN
work_dqud2adhprei3jnj4zdro365pa	89	15	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	89	16	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	89	17	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	89	18	amplitude	amplitude	NN
work_dqud2adhprei3jnj4zdro365pa	89	19	.	.	.
work_dqud2adhprei3jnj4zdro365pa	90	1	Fig	fig	NN
work_dqud2adhprei3jnj4zdro365pa	90	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	91	1	5	5	CD
work_dqud2adhprei3jnj4zdro365pa	91	2	summarises	summarise	VBZ
work_dqud2adhprei3jnj4zdro365pa	91	3	Ef	Ef	NNP
work_dqud2adhprei3jnj4zdro365pa	91	4	[	[	-LRB-
work_dqud2adhprei3jnj4zdro365pa	91	5	VCd	VCd	NNP
work_dqud2adhprei3jnj4zdro365pa	91	6	]	]	-RRB-
work_dqud2adhprei3jnj4zdro365pa	91	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	91	8	calculated	calculate	VBN
work_dqud2adhprei3jnj4zdro365pa	91	9	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	91	10	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	91	11	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	91	12	hollow	hollow	JJ
work_dqud2adhprei3jnj4zdro365pa	91	13	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	91	14	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	91	15	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	91	16	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	91	17	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	91	18	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	91	19	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	91	20	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	91	21	shaded	shaded	JJ
work_dqud2adhprei3jnj4zdro365pa	91	22	area	area	NN
work_dqud2adhprei3jnj4zdro365pa	91	23	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	91	24	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	91	25	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	91	26	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	91	27	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	91	28	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	91	29	,	,	,
work_dqud2adhprei3jnj4zdro365pa	91	30	versus	versus	IN
work_dqud2adhprei3jnj4zdro365pa	91	31	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	91	32	chemical	chemical	JJ
work_dqud2adhprei3jnj4zdro365pa	91	33	potential	potential	NN
work_dqud2adhprei3jnj4zdro365pa	91	34	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	91	35	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	91	36	electron	electron	NNP
work_dqud2adhprei3jnj4zdro365pa	91	37	reservoir	reservoir	NN
work_dqud2adhprei3jnj4zdro365pa	91	38	denoted	denote	VBD
work_dqud2adhprei3jnj4zdro365pa	91	39	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	91	40	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	91	41	Fermi	Fermi	NNP
work_dqud2adhprei3jnj4zdro365pa	91	42	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	91	43	offset	offset	VBN
work_dqud2adhprei3jnj4zdro365pa	91	44	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	91	45	VBM	VBM	NNP
work_dqud2adhprei3jnj4zdro365pa	91	46	up	up	IN
work_dqud2adhprei3jnj4zdro365pa	91	47	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	91	48	conduction	conduction	NN
work_dqud2adhprei3jnj4zdro365pa	91	49	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	91	50	minimum	minimum	NNP
work_dqud2adhprei3jnj4zdro365pa	91	51	CBM	CBM	NNP
work_dqud2adhprei3jnj4zdro365pa	91	52	=	=	SYM
work_dqud2adhprei3jnj4zdro365pa	91	53	Eg	Eg	NNP
work_dqud2adhprei3jnj4zdro365pa	91	54	.	.	.
work_dqud2adhprei3jnj4zdro365pa	92	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	92	2	white	white	JJ
work_dqud2adhprei3jnj4zdro365pa	92	3	vertical	vertical	JJ
work_dqud2adhprei3jnj4zdro365pa	92	4	region	region	NN
work_dqud2adhprei3jnj4zdro365pa	92	5	encloses	enclose	VBZ
work_dqud2adhprei3jnj4zdro365pa	92	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	92	7	experimental	experimental	JJ
work_dqud2adhprei3jnj4zdro365pa	92	8	range	range	NN
work_dqud2adhprei3jnj4zdro365pa	92	9	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	92	10	1.4	1.4	CD
work_dqud2adhprei3jnj4zdro365pa	92	11	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	92	12	1.8	1.8	CD
work_dqud2adhprei3jnj4zdro365pa	92	13	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	92	14	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	92	15	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	92	16	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	92	17	broad	broad	JJ
work_dqud2adhprei3jnj4zdro365pa	92	18	measured	measure	VBN
work_dqud2adhprei3jnj4zdro365pa	92	19	PL	PL	NNP
work_dqud2adhprei3jnj4zdro365pa	92	20	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	92	21	detected	detect	VBN
work_dqud2adhprei3jnj4zdro365pa	92	22	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	92	23	our	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	92	24	sample	sample	NN
work_dqud2adhprei3jnj4zdro365pa	92	25	.	.	.
work_dqud2adhprei3jnj4zdro365pa	93	1	TABLE	TABLE	NNP
work_dqud2adhprei3jnj4zdro365pa	93	2	I.	i.	NN
work_dqud2adhprei3jnj4zdro365pa	94	1	Formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	94	2	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	94	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	94	4	Ef	Ef	NNP
work_dqud2adhprei3jnj4zdro365pa	94	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	94	6	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	94	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	94	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	94	9	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	94	10	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	94	11	top	top	NN
work_dqud2adhprei3jnj4zdro365pa	94	12	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	94	13	hollow	hollow	JJ
work_dqud2adhprei3jnj4zdro365pa	94	14	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	94	15	vacancies	vacancie	VBZ
work_dqud2adhprei3jnj4zdro365pa	94	16	both	both	DT
work_dqud2adhprei3jnj4zdro365pa	94	17	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	94	18	neutral	neutral	JJ
work_dqud2adhprei3jnj4zdro365pa	94	19	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	94	20	negatively	negatively	RB
work_dqud2adhprei3jnj4zdro365pa	94	21	charged	charge	VBN
work_dqud2adhprei3jnj4zdro365pa	94	22	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	94	23	,	,	,
work_dqud2adhprei3jnj4zdro365pa	94	24	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	94	25	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	94	26	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	94	27	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	94	28	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	94	29	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	94	30	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	94	31	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	94	32	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	94	33	.	.	.
work_dqud2adhprei3jnj4zdro365pa	95	1	Ef	Ef	NNP
work_dqud2adhprei3jnj4zdro365pa	95	2	computed	compute	VBD
work_dqud2adhprei3jnj4zdro365pa	95	3	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	95	4	bulk	bulk	NN
work_dqud2adhprei3jnj4zdro365pa	95	5	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	95	6	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	95	7	also	also	RB
work_dqud2adhprei3jnj4zdro365pa	95	8	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	95	9	.	.	.
work_dqud2adhprei3jnj4zdro365pa	96	1	V	v	LS
work_dqud2adhprei3jnj4zdro365pa	96	2	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	96	3	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	96	4	Vhollow	Vhollow	NNP
work_dqud2adhprei3jnj4zdro365pa	96	5	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	96	6	Vbulk	Vbulk	NNP
work_dqud2adhprei3jnj4zdro365pa	96	7	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	96	8	q	q	NNP
work_dqud2adhprei3jnj4zdro365pa	96	9	0	0	CD
work_dqud2adhprei3jnj4zdro365pa	96	10	-1	-1	:
work_dqud2adhprei3jnj4zdro365pa	96	11	-2	-2	.
work_dqud2adhprei3jnj4zdro365pa	96	12	0	0	NFP
work_dqud2adhprei3jnj4zdro365pa	96	13	-1	-1	:
work_dqud2adhprei3jnj4zdro365pa	96	14	-2	-2	NFP
work_dqud2adhprei3jnj4zdro365pa	96	15	0	0	NFP
work_dqud2adhprei3jnj4zdro365pa	96	16	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	96	17	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	96	18	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	96	19	2.12	2.12	CD
work_dqud2adhprei3jnj4zdro365pa	96	20	3.09	3.09	CD
work_dqud2adhprei3jnj4zdro365pa	96	21	4.83	4.83	CD
work_dqud2adhprei3jnj4zdro365pa	96	22	2.68	2.68	CD
work_dqud2adhprei3jnj4zdro365pa	96	23	3.80	3.80	CD
work_dqud2adhprei3jnj4zdro365pa	96	24	5.30	5.30	CD
work_dqud2adhprei3jnj4zdro365pa	96	25	2.81	2.81	CD
work_dqud2adhprei3jnj4zdro365pa	96	26	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	96	27	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	96	28	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	96	29	3.31	3.31	CD
work_dqud2adhprei3jnj4zdro365pa	96	30	4.29	4.29	CD
work_dqud2adhprei3jnj4zdro365pa	96	31	6.02	6.02	CD
work_dqud2adhprei3jnj4zdro365pa	96	32	3.87	3.87	CD
work_dqud2adhprei3jnj4zdro365pa	96	33	4.99	4.99	CD
work_dqud2adhprei3jnj4zdro365pa	96	34	6.48	6.48	CD
work_dqud2adhprei3jnj4zdro365pa	96	35	4.12	4.12	CD
work_dqud2adhprei3jnj4zdro365pa	96	36	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	96	37	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	96	38	6	6	CD
work_dqud2adhprei3jnj4zdro365pa	96	39	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	96	40	et	et	NNP
work_dqud2adhprei3jnj4zdro365pa	96	41	al	al	NNP
work_dqud2adhprei3jnj4zdro365pa	96	42	.	.	.
work_dqud2adhprei3jnj4zdro365pa	97	1	AIP	AIP	NNP
work_dqud2adhprei3jnj4zdro365pa	97	2	Advances	Advances	NNP
work_dqud2adhprei3jnj4zdro365pa	97	3	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	97	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	97	5	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	97	6	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	97	7	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	97	8	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	97	9	FIG	FIG	NNP
work_dqud2adhprei3jnj4zdro365pa	97	10	.	.	.
work_dqud2adhprei3jnj4zdro365pa	98	1	4	4	LS
work_dqud2adhprei3jnj4zdro365pa	98	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	99	1	PL	pl	NN
work_dqud2adhprei3jnj4zdro365pa	99	2	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	99	3	Spectrum	Spectrum	NNP
work_dqud2adhprei3jnj4zdro365pa	99	4	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	99	5	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	99	6	hexagonal	hexagonal	JJ
work_dqud2adhprei3jnj4zdro365pa	99	7	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	99	8	pigment	pigment	NN
work_dqud2adhprei3jnj4zdro365pa	99	9	following	follow	VBG
work_dqud2adhprei3jnj4zdro365pa	99	10	continuous	continuous	JJ
work_dqud2adhprei3jnj4zdro365pa	99	11	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	99	12	wave	wave	NN
work_dqud2adhprei3jnj4zdro365pa	99	13	excitation	excitation	NN
work_dqud2adhprei3jnj4zdro365pa	99	14	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	99	15	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	99	16	power	power	NN
work_dqud2adhprei3jnj4zdro365pa	99	17	density	density	NN
work_dqud2adhprei3jnj4zdro365pa	99	18	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	99	19	0.1	0.1	CD
work_dqud2adhprei3jnj4zdro365pa	99	20	W	w	NN
work_dqud2adhprei3jnj4zdro365pa	99	21	/	/	SYM
work_dqud2adhprei3jnj4zdro365pa	99	22	cm2	cm2	NN
work_dqud2adhprei3jnj4zdro365pa	99	23	.	.	.
work_dqud2adhprei3jnj4zdro365pa	100	1	V	v	LS
work_dqud2adhprei3jnj4zdro365pa	100	2	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	100	3	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	100	4	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	100	5	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	100	6	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	100	7	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	100	8	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	100	9	appears	appear	VBZ
work_dqud2adhprei3jnj4zdro365pa	100	10	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	100	11	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	100	12	most	most	RBS
work_dqud2adhprei3jnj4zdro365pa	100	13	favoured	favoured	JJ
work_dqud2adhprei3jnj4zdro365pa	100	14	defect	defect	NN
work_dqud2adhprei3jnj4zdro365pa	100	15	inducing	induce	VBG
work_dqud2adhprei3jnj4zdro365pa	100	16	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	100	17	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	100	18	transition	transition	NN
work_dqud2adhprei3jnj4zdro365pa	100	19	state	state	NN
work_dqud2adhprei3jnj4zdro365pa	100	20	�	�	NNP
work_dqud2adhprei3jnj4zdro365pa	100	21	opt	opt	NNP
work_dqud2adhprei3jnj4zdro365pa	100	22	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	100	23	−1/	−1/	NNS
work_dqud2adhprei3jnj4zdro365pa	100	24	−	−	NNP
work_dqud2adhprei3jnj4zdro365pa	100	25	2)=1.74	2)=1.74	CD
work_dqud2adhprei3jnj4zdro365pa	100	26	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	100	27	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	100	28	excellent	excellent	JJ
work_dqud2adhprei3jnj4zdro365pa	100	29	agreement	agreement	NN
work_dqud2adhprei3jnj4zdro365pa	100	30	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	100	31	our	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	100	32	experimental	experimental	JJ
work_dqud2adhprei3jnj4zdro365pa	100	33	result	result	NN
work_dqud2adhprei3jnj4zdro365pa	100	34	.	.	.
work_dqud2adhprei3jnj4zdro365pa	101	1	Also	also	RB
work_dqud2adhprei3jnj4zdro365pa	101	2	Vhollow	Vhollow	NNP
work_dqud2adhprei3jnj4zdro365pa	101	3	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	101	4	shows	show	VBZ
work_dqud2adhprei3jnj4zdro365pa	101	5	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	101	6	same	same	JJ
work_dqud2adhprei3jnj4zdro365pa	101	7	kind	kind	NN
work_dqud2adhprei3jnj4zdro365pa	101	8	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	101	9	transition	transition	NN
work_dqud2adhprei3jnj4zdro365pa	101	10	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	101	11	1.50	1.50	CD
work_dqud2adhprei3jnj4zdro365pa	101	12	eV	eV	NNS
work_dqud2adhprei3jnj4zdro365pa	101	13	consistently	consistently	RB
work_dqud2adhprei3jnj4zdro365pa	101	14	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	101	15	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	101	16	measurements	measurement	NNS
work_dqud2adhprei3jnj4zdro365pa	101	17	but	but	CC
work_dqud2adhprei3jnj4zdro365pa	101	18	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	101	19	higher	high	JJR
work_dqud2adhprei3jnj4zdro365pa	101	20	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	101	21	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	101	22	.	.	.
work_dqud2adhprei3jnj4zdro365pa	102	1	Further	further	RB
work_dqud2adhprei3jnj4zdro365pa	102	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	102	3	calculated	calculate	VBN
work_dqud2adhprei3jnj4zdro365pa	102	4	optical	optical	JJ
work_dqud2adhprei3jnj4zdro365pa	102	5	transitions	transition	NNS
work_dqud2adhprei3jnj4zdro365pa	102	6	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	102	7	0.97	0.97	CD
work_dqud2adhprei3jnj4zdro365pa	102	8	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	102	9	1.12	1.12	CD
work_dqud2adhprei3jnj4zdro365pa	102	10	eV	ev	NN
work_dqud2adhprei3jnj4zdro365pa	102	11	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	102	12	top	top	NN
work_dqud2adhprei3jnj4zdro365pa	102	13	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	102	14	hollow	hollow	JJ
work_dqud2adhprei3jnj4zdro365pa	102	15	,	,	,
work_dqud2adhprei3jnj4zdro365pa	102	16	respectively	respectively	RB
work_dqud2adhprei3jnj4zdro365pa	102	17	,	,	,
work_dqud2adhprei3jnj4zdro365pa	102	18	attributed	attribute	VBN
work_dqud2adhprei3jnj4zdro365pa	102	19	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	102	20	transitions	transition	NNS
work_dqud2adhprei3jnj4zdro365pa	102	21	0/−	0/−	NN
work_dqud2adhprei3jnj4zdro365pa	102	22	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	102	23	consistent	consistent	JJ
work_dqud2adhprei3jnj4zdro365pa	102	24	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	102	25	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	102	26	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	102	27	detected	detect	VBN
work_dqud2adhprei3jnj4zdro365pa	102	28	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	102	29	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	102	30	<	<	XX
work_dqud2adhprei3jnj4zdro365pa	102	31	1.3	1.3	CD
work_dqud2adhprei3jnj4zdro365pa	102	32	eV.	eV.	VBN
work_dqud2adhprei3jnj4zdro365pa	103	1	Under	under	IN
work_dqud2adhprei3jnj4zdro365pa	103	2	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	103	3	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	103	4	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	103	5	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	103	6	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	103	7	find	find	VBP
work_dqud2adhprei3jnj4zdro365pa	103	8	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	103	9	same	same	JJ
work_dqud2adhprei3jnj4zdro365pa	103	10	behaviour	behaviour	NN
work_dqud2adhprei3jnj4zdro365pa	103	11	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	103	12	V	V	NNP
work_dqud2adhprei3jnj4zdro365pa	103	13	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	103	14	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	103	15	favorite	favorite	RB
work_dqud2adhprei3jnj4zdro365pa	103	16	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	103	17	Vhollow	Vhollow	NNP
work_dqud2adhprei3jnj4zdro365pa	103	18	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	103	19	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	103	20	still	still	RB
work_dqud2adhprei3jnj4zdro365pa	103	21	,	,	,
work_dqud2adhprei3jnj4zdro365pa	103	22	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	103	23	transition	transition	NN
work_dqud2adhprei3jnj4zdro365pa	103	24	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	103	25	−1/	−1/	NNP
work_dqud2adhprei3jnj4zdro365pa	103	26	−	−	NNP
work_dqud2adhprei3jnj4zdro365pa	103	27	2	2	CD
work_dqud2adhprei3jnj4zdro365pa	103	28	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	103	29	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	103	30	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	103	31	one	one	NN
work_dqud2adhprei3jnj4zdro365pa	103	32	compatible	compatible	JJ
work_dqud2adhprei3jnj4zdro365pa	103	33	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	103	34	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	103	35	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	103	36	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	103	37	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	103	38	.	.	.
work_dqud2adhprei3jnj4zdro365pa	104	1	As	as	IN
work_dqud2adhprei3jnj4zdro365pa	104	2	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	104	3	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	104	4	sample	sample	NN
work_dqud2adhprei3jnj4zdro365pa	104	5	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	104	6	hexagonal	hexagonal	NNP
work_dqud2adhprei3jnj4zdro365pa	104	7	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	104	8	examined	examine	VBN
work_dqud2adhprei3jnj4zdro365pa	104	9	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	104	10	this	this	DT
work_dqud2adhprei3jnj4zdro365pa	104	11	work	work	NN
work_dqud2adhprei3jnj4zdro365pa	104	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	104	13	information	information	NN
work_dqud2adhprei3jnj4zdro365pa	104	14	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	104	15	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	104	16	process	process	NN
work_dqud2adhprei3jnj4zdro365pa	104	17	used	use	VBN
work_dqud2adhprei3jnj4zdro365pa	104	18	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	104	19	its	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	104	20	synthesis	synthesis	NN
work_dqud2adhprei3jnj4zdro365pa	104	21	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	104	22	not	not	RB
work_dqud2adhprei3jnj4zdro365pa	104	23	accessible	accessible	JJ
work_dqud2adhprei3jnj4zdro365pa	104	24	,	,	,
work_dqud2adhprei3jnj4zdro365pa	104	25	but	but	CC
work_dqud2adhprei3jnj4zdro365pa	104	26	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	104	27	likely	likely	JJ
work_dqud2adhprei3jnj4zdro365pa	104	28	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	104	29	be	be	VB
work_dqud2adhprei3jnj4zdro365pa	104	30	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	104	31	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	104	32	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	104	33	use	use	NN
work_dqud2adhprei3jnj4zdro365pa	104	34	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	104	35	excess	excess	JJ
work_dqud2adhprei3jnj4zdro365pa	104	36	sulfuric	sulfuric	NN
work_dqud2adhprei3jnj4zdro365pa	104	37	acid	acid	NN
work_dqud2adhprei3jnj4zdro365pa	104	38	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	104	39	yield	yield	VB
work_dqud2adhprei3jnj4zdro365pa	104	40	CdSO4	CdSO4	NNP
work_dqud2adhprei3jnj4zdro365pa	104	41	which	which	WDT
work_dqud2adhprei3jnj4zdro365pa	104	42	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	104	43	then	then	RB
work_dqud2adhprei3jnj4zdro365pa	104	44	reacted	react	VBN
work_dqud2adhprei3jnj4zdro365pa	104	45	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	104	46	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	104	47	alkali	alkali	JJ
work_dqud2adhprei3jnj4zdro365pa	104	48	sulphide	sulphide	NN
work_dqud2adhprei3jnj4zdro365pa	104	49	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	104	50	precipitate	precipitate	VB
work_dqud2adhprei3jnj4zdro365pa	104	51	CdS.	CdS.	NNP
work_dqud2adhprei3jnj4zdro365pa	105	1	Calcination	calcination	NN
work_dqud2adhprei3jnj4zdro365pa	105	2	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	105	3	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	105	4	precipitate	precipitate	NN
work_dqud2adhprei3jnj4zdro365pa	105	5	converts	convert	NNS
work_dqud2adhprei3jnj4zdro365pa	105	6	cubic	cubic	JJ
work_dqud2adhprei3jnj4zdro365pa	105	7	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	105	8	hexagonal	hexagonal	NNP
work_dqud2adhprei3jnj4zdro365pa	105	9	CdS.38	CdS.38	NNP
work_dqud2adhprei3jnj4zdro365pa	105	10	Thus	thus	RB
work_dqud2adhprei3jnj4zdro365pa	105	11	it	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	105	12	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	105	13	not	not	RB
work_dqud2adhprei3jnj4zdro365pa	105	14	clear	clear	JJ
work_dqud2adhprei3jnj4zdro365pa	105	15	,	,	,
work_dqud2adhprei3jnj4zdro365pa	105	16	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	105	17	general	general	JJ
work_dqud2adhprei3jnj4zdro365pa	105	18	,	,	,
work_dqud2adhprei3jnj4zdro365pa	105	19	if	if	IN
work_dqud2adhprei3jnj4zdro365pa	105	20	synthesis	synthesis	NN
work_dqud2adhprei3jnj4zdro365pa	105	21	results	result	VBZ
work_dqud2adhprei3jnj4zdro365pa	105	22	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	105	23	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	105	24	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	105	25	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	105	26	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	105	27	or	or	CC
work_dqud2adhprei3jnj4zdro365pa	105	28	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	105	29	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	105	30	,	,	,
work_dqud2adhprei3jnj4zdro365pa	105	31	both	both	DT
work_dqud2adhprei3jnj4zdro365pa	105	32	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	105	33	which	which	WDT
work_dqud2adhprei3jnj4zdro365pa	105	34	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	105	35	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	105	36	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	105	37	literature	literature	NN
work_dqud2adhprei3jnj4zdro365pa	105	38	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	105	39	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	105	40	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	105	41	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	105	42	materials.38	materials.38	NNP
work_dqud2adhprei3jnj4zdro365pa	105	43	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	105	44	both	both	DT
work_dqud2adhprei3jnj4zdro365pa	105	45	cases	case	NNS
work_dqud2adhprei3jnj4zdro365pa	105	46	,	,	,
work_dqud2adhprei3jnj4zdro365pa	105	47	FIG	FIG	NNP
work_dqud2adhprei3jnj4zdro365pa	105	48	.	.	.
work_dqud2adhprei3jnj4zdro365pa	106	1	5	5	CD
work_dqud2adhprei3jnj4zdro365pa	106	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	107	1	Ef	Ef	NNP
work_dqud2adhprei3jnj4zdro365pa	107	2	vs.	vs.	NN
work_dqud2adhprei3jnj4zdro365pa	107	3	Fermi	Fermi	NNP
work_dqud2adhprei3jnj4zdro365pa	107	4	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	107	5	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	107	6	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	107	7	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	107	8	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	107	9	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	107	10	surface	surface	VBP
work_dqud2adhprei3jnj4zdro365pa	107	11	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	107	12	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	107	13	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	107	14	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	107	15	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	107	16	shaded	shaded	JJ
work_dqud2adhprei3jnj4zdro365pa	107	17	region	region	NN
work_dqud2adhprei3jnj4zdro365pa	107	18	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	107	19	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	107	20	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	107	21	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	107	22	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	107	23	simulated	simulate	VBN
work_dqud2adhprei3jnj4zdro365pa	107	24	environmental	environmental	JJ
work_dqud2adhprei3jnj4zdro365pa	107	25	growth	growth	NN
work_dqud2adhprei3jnj4zdro365pa	107	26	conditions	condition	NNS
work_dqud2adhprei3jnj4zdro365pa	107	27	.	.	.
work_dqud2adhprei3jnj4zdro365pa	108	1	Red	red	JJ
work_dqud2adhprei3jnj4zdro365pa	108	2	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	108	3	blue	blue	JJ
work_dqud2adhprei3jnj4zdro365pa	108	4	curves	curve	NNS
work_dqud2adhprei3jnj4zdro365pa	108	5	refer	refer	VBP
work_dqud2adhprei3jnj4zdro365pa	108	6	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	108	7	hollow	hollow	JJ
work_dqud2adhprei3jnj4zdro365pa	108	8	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	108	9	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	108	10	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	108	11	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	108	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	108	13	respectively	respectively	RB
work_dqud2adhprei3jnj4zdro365pa	108	14	.	.	.
work_dqud2adhprei3jnj4zdro365pa	109	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	109	2	zero	zero	CD
work_dqud2adhprei3jnj4zdro365pa	109	3	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	109	4	Fermi	Fermi	NNP
work_dqud2adhprei3jnj4zdro365pa	109	5	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	109	6	corresponds	correspond	NNS
work_dqud2adhprei3jnj4zdro365pa	109	7	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	109	8	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	109	9	valence	valence	NN
work_dqud2adhprei3jnj4zdro365pa	109	10	band	band	NN
work_dqud2adhprei3jnj4zdro365pa	109	11	maximum	maximum	NN
work_dqud2adhprei3jnj4zdro365pa	109	12	.	.	.
work_dqud2adhprei3jnj4zdro365pa	110	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	110	2	slope	slope	NN
work_dqud2adhprei3jnj4zdro365pa	110	3	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	110	4	segments	segment	NNS
work_dqud2adhprei3jnj4zdro365pa	110	5	indicates	indicate	VBZ
work_dqud2adhprei3jnj4zdro365pa	110	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	110	7	charge	charge	NN
work_dqud2adhprei3jnj4zdro365pa	110	8	state	state	NN
work_dqud2adhprei3jnj4zdro365pa	110	9	.	.	.
work_dqud2adhprei3jnj4zdro365pa	111	1	Kinks	kink	NNS
work_dqud2adhprei3jnj4zdro365pa	111	2	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	111	3	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	111	4	curves	curve	NNS
work_dqud2adhprei3jnj4zdro365pa	111	5	indicate	indicate	VBP
work_dqud2adhprei3jnj4zdro365pa	111	6	transitions	transition	NNS
work_dqud2adhprei3jnj4zdro365pa	111	7	between	between	IN
work_dqud2adhprei3jnj4zdro365pa	111	8	different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	111	9	charge	charge	NN
work_dqud2adhprei3jnj4zdro365pa	111	10	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	111	11	.	.	.
work_dqud2adhprei3jnj4zdro365pa	112	1	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	112	2	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	112	3	7	7	CD
work_dqud2adhprei3jnj4zdro365pa	112	4	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	112	5	et	et	NNP
work_dqud2adhprei3jnj4zdro365pa	112	6	al	al	NNP
work_dqud2adhprei3jnj4zdro365pa	112	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	113	1	AIP	AIP	NNP
work_dqud2adhprei3jnj4zdro365pa	113	2	Advances	Advances	NNP
work_dqud2adhprei3jnj4zdro365pa	113	3	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	113	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	113	5	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	113	6	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	113	7	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	113	8	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	113	9	assuming	assume	VBG
work_dqud2adhprei3jnj4zdro365pa	113	10	unintentionally	unintentionally	RB
work_dqud2adhprei3jnj4zdro365pa	113	11	doped	dope	VBN
work_dqud2adhprei3jnj4zdro365pa	113	12	sample	sample	NN
work_dqud2adhprei3jnj4zdro365pa	113	13	as	as	IN
work_dqud2adhprei3jnj4zdro365pa	113	14	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	113	15	n	n	NNP
work_dqud2adhprei3jnj4zdro365pa	113	16	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	113	17	type,39	type,39	NN
work_dqud2adhprei3jnj4zdro365pa	113	18	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	113	19	excess	excess	NN
work_dqud2adhprei3jnj4zdro365pa	113	20	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	113	21	free	free	JJ
work_dqud2adhprei3jnj4zdro365pa	113	22	electrons	electron	NNS
work_dqud2adhprei3jnj4zdro365pa	113	23	,	,	,
work_dqud2adhprei3jnj4zdro365pa	113	24	i.e.	i.e.	FW
work_dqud2adhprei3jnj4zdro365pa	114	1	donor	donor	NN
work_dqud2adhprei3jnj4zdro365pa	114	2	states	state	NNS
work_dqud2adhprei3jnj4zdro365pa	114	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	114	4	would	would	MD
work_dqud2adhprei3jnj4zdro365pa	114	5	raise	raise	VB
work_dqud2adhprei3jnj4zdro365pa	114	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	114	7	Fermi	Fermi	NNP
work_dqud2adhprei3jnj4zdro365pa	114	8	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	114	9	just	just	RB
work_dqud2adhprei3jnj4zdro365pa	114	10	below	below	IN
work_dqud2adhprei3jnj4zdro365pa	114	11	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	114	12	CBM	CBM	NNP
work_dqud2adhprei3jnj4zdro365pa	114	13	.	.	.
work_dqud2adhprei3jnj4zdro365pa	115	1	We	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	115	2	can	can	MD
work_dqud2adhprei3jnj4zdro365pa	115	3	propose	propose	VB
work_dqud2adhprei3jnj4zdro365pa	115	4	two	two	CD
work_dqud2adhprei3jnj4zdro365pa	115	5	different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	115	6	scenarios	scenario	NNS
work_dqud2adhprei3jnj4zdro365pa	115	7	:	:	:
work_dqud2adhprei3jnj4zdro365pa	115	8	i	i	LS
work_dqud2adhprei3jnj4zdro365pa	115	9	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	115	10	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	115	11	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	115	12	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	115	13	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	115	14	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	115	15	n	n	JJ
work_dqud2adhprei3jnj4zdro365pa	115	16	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	115	17	type	type	NN
work_dqud2adhprei3jnj4zdro365pa	115	18	sample	sample	NN
work_dqud2adhprei3jnj4zdro365pa	115	19	would	would	MD
work_dqud2adhprei3jnj4zdro365pa	115	20	contain	contain	VB
work_dqud2adhprei3jnj4zdro365pa	115	21	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	115	22	excess	excess	NN
work_dqud2adhprei3jnj4zdro365pa	115	23	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	115	24	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	115	25	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	115	26	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	115	27	and/or	and/or	CC
work_dqud2adhprei3jnj4zdro365pa	115	28	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	115	29	interstitials	interstitial	NNS
work_dqud2adhprei3jnj4zdro365pa	115	30	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	115	31	.	.	.
work_dqud2adhprei3jnj4zdro365pa	116	1	From	from	IN
work_dqud2adhprei3jnj4zdro365pa	116	2	our	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	116	3	calculations	calculation	NNS
work_dqud2adhprei3jnj4zdro365pa	116	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	116	5	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	116	6	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	116	7	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	116	8	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	116	9	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	116	10	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	116	11	is	be	VBZ
work_dqud2adhprei3jnj4zdro365pa	116	12	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	116	13	lowest	low	JJS
work_dqud2adhprei3jnj4zdro365pa	116	14	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	116	15	highest	high	JJS
work_dqud2adhprei3jnj4zdro365pa	116	16	concentration	concentration	NN
work_dqud2adhprei3jnj4zdro365pa	116	17	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	116	18	,	,	,
work_dqud2adhprei3jnj4zdro365pa	116	19	both	both	CC
work_dqud2adhprei3jnj4zdro365pa	116	20	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	116	21	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	116	22	bulk	bulk	NN
work_dqud2adhprei3jnj4zdro365pa	116	23	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	116	24	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	116	25	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	116	26	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	116	27	.	.	.
work_dqud2adhprei3jnj4zdro365pa	117	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	117	2	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	117	3	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	117	4	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	117	5	show	show	VBP
work_dqud2adhprei3jnj4zdro365pa	117	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	117	7	highest	high	JJS
work_dqud2adhprei3jnj4zdro365pa	117	8	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	117	9	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	117	10	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	117	11	lowest	low	JJS
work_dqud2adhprei3jnj4zdro365pa	117	12	concentration	concentration	NN
work_dqud2adhprei3jnj4zdro365pa	117	13	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	117	14	.	.	.
work_dqud2adhprei3jnj4zdro365pa	118	1	Their	-PRON-	PRP$
work_dqud2adhprei3jnj4zdro365pa	118	2	presence	presence	NN
work_dqud2adhprei3jnj4zdro365pa	118	3	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	118	4	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	118	5	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	118	6	can	can	MD
work_dqud2adhprei3jnj4zdro365pa	118	7	be	be	VB
work_dqud2adhprei3jnj4zdro365pa	118	8	ascribed	ascribe	VBN
work_dqud2adhprei3jnj4zdro365pa	118	9	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	118	10	oxidation	oxidation	NN
work_dqud2adhprei3jnj4zdro365pa	118	11	mechanisms	mechanism	NNS
work_dqud2adhprei3jnj4zdro365pa	118	12	occurring	occur	VBG
work_dqud2adhprei3jnj4zdro365pa	118	13	after	after	IN
work_dqud2adhprei3jnj4zdro365pa	118	14	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	118	15	growth	growth	NN
work_dqud2adhprei3jnj4zdro365pa	118	16	.	.	.
work_dqud2adhprei3jnj4zdro365pa	119	1	We	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	119	2	determined	determine	VBD
work_dqud2adhprei3jnj4zdro365pa	119	3	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	119	4	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	119	5	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	119	6	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	119	7	V	v	NN
work_dqud2adhprei3jnj4zdro365pa	119	8	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	119	9	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	119	10	considering	consider	VBG
work_dqud2adhprei3jnj4zdro365pa	119	11	different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	119	12	chemical	chemical	NN
work_dqud2adhprei3jnj4zdro365pa	119	13	potentials	potential	NNS
work_dqud2adhprei3jnj4zdro365pa	119	14	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	119	15	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	119	16	calculated	calculate	VBN
work_dqud2adhprei3jnj4zdro365pa	119	17	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	119	18	solid	solid	JJ
work_dqud2adhprei3jnj4zdro365pa	119	19	CdO	CdO	NNP
work_dqud2adhprei3jnj4zdro365pa	119	20	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	119	21	CdO2	CdO2	NNS
work_dqud2adhprei3jnj4zdro365pa	119	22	.	.	.
work_dqud2adhprei3jnj4zdro365pa	120	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	120	2	values	value	NNS
work_dqud2adhprei3jnj4zdro365pa	120	3	obtained	obtain	VBN
work_dqud2adhprei3jnj4zdro365pa	120	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	120	5	1.23	1.23	CD
work_dqud2adhprei3jnj4zdro365pa	120	6	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	120	7	1.63	1.63	CD
work_dqud2adhprei3jnj4zdro365pa	120	8	eV	eV	NNP
work_dqud2adhprei3jnj4zdro365pa	120	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	120	10	respectively	respectively	RB
work_dqud2adhprei3jnj4zdro365pa	120	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	120	12	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	120	13	significantly	significantly	RB
work_dqud2adhprei3jnj4zdro365pa	120	14	lower	low	JJR
work_dqud2adhprei3jnj4zdro365pa	120	15	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	120	16	respect	respect	NN
work_dqud2adhprei3jnj4zdro365pa	120	17	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	120	18	those	those	DT
work_dqud2adhprei3jnj4zdro365pa	120	19	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	120	20	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	120	21	Table	table	NN
work_dqud2adhprei3jnj4zdro365pa	120	22	I.	i.	NN
work_dqud2adhprei3jnj4zdro365pa	121	1	Similarly	similarly	RB
work_dqud2adhprei3jnj4zdro365pa	121	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	121	3	considering	consider	VBG
work_dqud2adhprei3jnj4zdro365pa	121	4	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	121	5	chemical	chemical	NN
work_dqud2adhprei3jnj4zdro365pa	121	6	potential	potential	NN
work_dqud2adhprei3jnj4zdro365pa	121	7	obtained	obtain	VBN
work_dqud2adhprei3jnj4zdro365pa	121	8	from	from	IN
work_dqud2adhprei3jnj4zdro365pa	121	9	typical	typical	JJ
work_dqud2adhprei3jnj4zdro365pa	121	10	secondary	secondary	JJ
work_dqud2adhprei3jnj4zdro365pa	121	11	compounds	compound	NNS
work_dqud2adhprei3jnj4zdro365pa	121	12	observed	observe	VBN
work_dqud2adhprei3jnj4zdro365pa	121	13	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	121	14	historical	historical	JJ
work_dqud2adhprei3jnj4zdro365pa	121	15	deteriorated	deteriorate	VBD
work_dqud2adhprei3jnj4zdro365pa	121	16	paints,40	paints,40	NN
work_dqud2adhprei3jnj4zdro365pa	121	17	i.e.	i.e.	FW
work_dqud2adhprei3jnj4zdro365pa	122	1	CdCl2	CdCl2	NNP
work_dqud2adhprei3jnj4zdro365pa	122	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	122	3	CdSO4	CdSO4	NNP
work_dqud2adhprei3jnj4zdro365pa	122	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	122	5	CdCO3	CdCO3	NNP
work_dqud2adhprei3jnj4zdro365pa	122	6	,	,	,
work_dqud2adhprei3jnj4zdro365pa	122	7	Ef	Ef	NNP
work_dqud2adhprei3jnj4zdro365pa	122	8	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	122	9	V	V	NNP
work_dqud2adhprei3jnj4zdro365pa	122	10	top	top	JJ
work_dqud2adhprei3jnj4zdro365pa	122	11	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	122	12	resulted	result	VBD
work_dqud2adhprei3jnj4zdro365pa	122	13	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	122	14	0.21	0.21	CD
work_dqud2adhprei3jnj4zdro365pa	122	15	,	,	,
work_dqud2adhprei3jnj4zdro365pa	122	16	3.01	3.01	CD
work_dqud2adhprei3jnj4zdro365pa	122	17	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	122	18	3.60	3.60	CD
work_dqud2adhprei3jnj4zdro365pa	122	19	eV	eV	NNS
work_dqud2adhprei3jnj4zdro365pa	122	20	,	,	,
work_dqud2adhprei3jnj4zdro365pa	122	21	respectively	respectively	RB
work_dqud2adhprei3jnj4zdro365pa	122	22	.	.	.
work_dqud2adhprei3jnj4zdro365pa	123	1	Hence	hence	RB
work_dqud2adhprei3jnj4zdro365pa	123	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	123	3	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	123	4	speculate	speculate	VBP
work_dqud2adhprei3jnj4zdro365pa	123	5	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	123	6	oxygen	oxygen	NN
work_dqud2adhprei3jnj4zdro365pa	123	7	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	123	8	chlorine	chlorine	NN
work_dqud2adhprei3jnj4zdro365pa	123	9	present	present	JJ
work_dqud2adhprei3jnj4zdro365pa	123	10	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	123	11	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	123	12	environment	environment	NN
work_dqud2adhprei3jnj4zdro365pa	123	13	likely	likely	JJ
work_dqud2adhprei3jnj4zdro365pa	123	14	form	form	NN
work_dqud2adhprei3jnj4zdro365pa	123	15	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	123	16	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	123	17	based	base	VBN
work_dqud2adhprei3jnj4zdro365pa	123	18	secondary	secondary	JJ
work_dqud2adhprei3jnj4zdro365pa	123	19	compounds	compound	NNS
work_dqud2adhprei3jnj4zdro365pa	123	20	.	.	.
work_dqud2adhprei3jnj4zdro365pa	124	1	CdSO4	CdSO4	NNP
work_dqud2adhprei3jnj4zdro365pa	124	2	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	124	3	CdCO3	CdCO3	NNP
work_dqud2adhprei3jnj4zdro365pa	124	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	124	5	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	124	6	higher	high	JJR
work_dqud2adhprei3jnj4zdro365pa	124	7	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	124	8	energies	energy	NNS
work_dqud2adhprei3jnj4zdro365pa	124	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	124	10	may	may	MD
work_dqud2adhprei3jnj4zdro365pa	124	11	support	support	VB
work_dqud2adhprei3jnj4zdro365pa	124	12	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	124	13	hypothesis	hypothesis	NN
work_dqud2adhprei3jnj4zdro365pa	124	14	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	124	15	residual	residual	JJ
work_dqud2adhprei3jnj4zdro365pa	124	16	starting	starting	NN
work_dqud2adhprei3jnj4zdro365pa	124	17	reagents	reagent	NNS
work_dqud2adhprei3jnj4zdro365pa	124	18	.	.	.
work_dqud2adhprei3jnj4zdro365pa	125	1	ii	ii	LS
work_dqud2adhprei3jnj4zdro365pa	125	2	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	125	3	Cd	cd	NN
work_dqud2adhprei3jnj4zdro365pa	125	4	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	125	5	poor	poor	JJ
work_dqud2adhprei3jnj4zdro365pa	125	6	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	125	7	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	125	8	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	125	9	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	125	10	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	125	11	-	-	:
work_dqud2adhprei3jnj4zdro365pa	125	12	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	125	13	n	n	JJ
work_dqud2adhprei3jnj4zdro365pa	125	14	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	125	15	type	type	NN
work_dqud2adhprei3jnj4zdro365pa	125	16	sample	sample	NN
work_dqud2adhprei3jnj4zdro365pa	125	17	would	would	MD
work_dqud2adhprei3jnj4zdro365pa	125	18	have	have	VB
work_dqud2adhprei3jnj4zdro365pa	125	19	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	125	20	excess	excess	NN
work_dqud2adhprei3jnj4zdro365pa	125	21	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	125	22	free	free	JJ
work_dqud2adhprei3jnj4zdro365pa	125	23	electrons	electron	NNS
work_dqud2adhprei3jnj4zdro365pa	125	24	but	but	CC
work_dqud2adhprei3jnj4zdro365pa	125	25	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	125	26	concen-	concen-	XX
work_dqud2adhprei3jnj4zdro365pa	125	27	tration	tration	NN
work_dqud2adhprei3jnj4zdro365pa	125	28	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	125	29	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	125	30	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	125	31	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	125	32	thermal	thermal	JJ
work_dqud2adhprei3jnj4zdro365pa	125	33	equilibrium	equilibrium	NN
work_dqud2adhprei3jnj4zdro365pa	125	34	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	125	35	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	125	36	as	as	RB
work_dqud2adhprei3jnj4zdro365pa	125	37	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	125	38	grown	grow	VBN
work_dqud2adhprei3jnj4zdro365pa	125	39	sample	sample	NN
work_dqud2adhprei3jnj4zdro365pa	125	40	would	would	MD
work_dqud2adhprei3jnj4zdro365pa	125	41	be	be	VB
work_dqud2adhprei3jnj4zdro365pa	125	42	lower	low	JJR
work_dqud2adhprei3jnj4zdro365pa	125	43	while	while	IN
work_dqud2adhprei3jnj4zdro365pa	125	44	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	125	45	concentration	concentration	NN
work_dqud2adhprei3jnj4zdro365pa	125	46	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	125	47	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	125	48	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	125	49	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	125	50	would	would	MD
work_dqud2adhprei3jnj4zdro365pa	125	51	be	be	VB
work_dqud2adhprei3jnj4zdro365pa	125	52	higher	high	JJR
work_dqud2adhprei3jnj4zdro365pa	125	53	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	125	54	lower	low	JJR
work_dqud2adhprei3jnj4zdro365pa	125	55	formation	formation	NN
work_dqud2adhprei3jnj4zdro365pa	125	56	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	125	57	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	125	58	than	than	IN
work_dqud2adhprei3jnj4zdro365pa	125	59	those	those	DT
work_dqud2adhprei3jnj4zdro365pa	125	60	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	125	61	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	125	62	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	125	63	rich	rich	JJ
work_dqud2adhprei3jnj4zdro365pa	125	64	.	.	.
work_dqud2adhprei3jnj4zdro365pa	126	1	Further	further	JJ
work_dqud2adhprei3jnj4zdro365pa	126	2	oxidising	oxidising	JJ
work_dqud2adhprei3jnj4zdro365pa	126	3	reactions	reaction	NNS
work_dqud2adhprei3jnj4zdro365pa	126	4	would	would	MD
work_dqud2adhprei3jnj4zdro365pa	126	5	increase	increase	VB
work_dqud2adhprei3jnj4zdro365pa	126	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	126	7	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	126	8	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	126	9	superficial	superficial	JJ
work_dqud2adhprei3jnj4zdro365pa	126	10	damage	damage	NN
work_dqud2adhprei3jnj4zdro365pa	126	11	.	.	.
work_dqud2adhprei3jnj4zdro365pa	127	1	In	in	IN
work_dqud2adhprei3jnj4zdro365pa	127	2	summary	summary	NN
work_dqud2adhprei3jnj4zdro365pa	127	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	127	4	we	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	127	5	have	have	VBP
work_dqud2adhprei3jnj4zdro365pa	127	6	combined	combine	VBN
work_dqud2adhprei3jnj4zdro365pa	127	7	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	127	8	first	first	JJ
work_dqud2adhprei3jnj4zdro365pa	127	9	principles	principle	NNS
work_dqud2adhprei3jnj4zdro365pa	127	10	study	study	NN
work_dqud2adhprei3jnj4zdro365pa	127	11	at	at	IN
work_dqud2adhprei3jnj4zdro365pa	127	12	different	different	JJ
work_dqud2adhprei3jnj4zdro365pa	127	13	levels	level	NNS
work_dqud2adhprei3jnj4zdro365pa	127	14	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	127	15	theory	theory	NN
work_dqud2adhprei3jnj4zdro365pa	127	16	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	127	17	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	127	18	intrinsic	intrinsic	JJ
work_dqud2adhprei3jnj4zdro365pa	127	19	defects	defect	NNS
work_dqud2adhprei3jnj4zdro365pa	127	20	with	with	IN
work_dqud2adhprei3jnj4zdro365pa	127	21	photoluminescence	photoluminescence	NN
work_dqud2adhprei3jnj4zdro365pa	127	22	spectroscopy	spectroscopy	NNP
work_dqud2adhprei3jnj4zdro365pa	127	23	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	127	24	hexagonal	hexagonal	NNP
work_dqud2adhprei3jnj4zdro365pa	127	25	CdS	CdS	NNP
work_dqud2adhprei3jnj4zdro365pa	127	26	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	127	27	order	order	NN
work_dqud2adhprei3jnj4zdro365pa	127	28	to	to	TO
work_dqud2adhprei3jnj4zdro365pa	127	29	interpret	interpret	VB
work_dqud2adhprei3jnj4zdro365pa	127	30	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	127	31	origin	origin	NN
work_dqud2adhprei3jnj4zdro365pa	127	32	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	127	33	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	127	34	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	127	35	trap	trap	NN
work_dqud2adhprei3jnj4zdro365pa	127	36	state	state	NN
work_dqud2adhprei3jnj4zdro365pa	127	37	often	often	RB
work_dqud2adhprei3jnj4zdro365pa	127	38	detected	detect	VBD
work_dqud2adhprei3jnj4zdro365pa	127	39	through	through	IN
work_dqud2adhprei3jnj4zdro365pa	127	40	photoluminescence	photoluminescence	NN
work_dqud2adhprei3jnj4zdro365pa	127	41	both	both	DT
work_dqud2adhprei3jnj4zdro365pa	127	42	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	127	43	commercial	commercial	JJ
work_dqud2adhprei3jnj4zdro365pa	127	44	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	127	45	historical	historical	JJ
work_dqud2adhprei3jnj4zdro365pa	127	46	deteriorated	deteriorate	VBD
work_dqud2adhprei3jnj4zdro365pa	127	47	yellow	yellow	JJ
work_dqud2adhprei3jnj4zdro365pa	127	48	pigments	pigment	NNS
work_dqud2adhprei3jnj4zdro365pa	127	49	.	.	.
work_dqud2adhprei3jnj4zdro365pa	128	1	Results	result	NNS
work_dqud2adhprei3jnj4zdro365pa	128	2	clearly	clearly	RB
work_dqud2adhprei3jnj4zdro365pa	128	3	show	show	VBP
work_dqud2adhprei3jnj4zdro365pa	128	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	128	5	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	128	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	128	7	first	first	JJ
work_dqud2adhprei3jnj4zdro365pa	128	8	time	time	NN
work_dqud2adhprei3jnj4zdro365pa	128	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	128	10	that	that	IN
work_dqud2adhprei3jnj4zdro365pa	128	11	such	such	JJ
work_dqud2adhprei3jnj4zdro365pa	128	12	emission	emission	NN
work_dqud2adhprei3jnj4zdro365pa	128	13	represents	represent	VBZ
work_dqud2adhprei3jnj4zdro365pa	128	14	an	an	DT
work_dqud2adhprei3jnj4zdro365pa	128	15	electron	electron	NN
work_dqud2adhprei3jnj4zdro365pa	128	16	/	/	SYM
work_dqud2adhprei3jnj4zdro365pa	128	17	hole	hole	NN
work_dqud2adhprei3jnj4zdro365pa	128	18	recombination	recombination	NN
work_dqud2adhprei3jnj4zdro365pa	128	19	occurring	occur	VBG
work_dqud2adhprei3jnj4zdro365pa	128	20	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	128	21	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	128	22	presence	presence	NN
work_dqud2adhprei3jnj4zdro365pa	128	23	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	128	24	surface	surface	NN
work_dqud2adhprei3jnj4zdro365pa	128	25	cadmium	cadmium	NN
work_dqud2adhprei3jnj4zdro365pa	128	26	vacancies	vacancy	NNS
work_dqud2adhprei3jnj4zdro365pa	128	27	:	:	:
work_dqud2adhprei3jnj4zdro365pa	128	28	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	128	29	sulfur	sulfur	NN
work_dqud2adhprei3jnj4zdro365pa	128	30	3p	3p	CD
work_dqud2adhprei3jnj4zdro365pa	128	31	dangling	dangle	VBG
work_dqud2adhprei3jnj4zdro365pa	128	32	bonds	bond	NNS
work_dqud2adhprei3jnj4zdro365pa	128	33	created	create	VBN
work_dqud2adhprei3jnj4zdro365pa	128	34	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	128	35	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	128	36	missing	miss	VBG
work_dqud2adhprei3jnj4zdro365pa	128	37	cation	cation	NN
work_dqud2adhprei3jnj4zdro365pa	128	38	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	128	39	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	128	40	origin	origin	NN
work_dqud2adhprei3jnj4zdro365pa	128	41	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	128	42	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	128	43	deep	deep	JJ
work_dqud2adhprei3jnj4zdro365pa	128	44	acceptor	acceptor	NN
work_dqud2adhprei3jnj4zdro365pa	128	45	level	level	NN
work_dqud2adhprei3jnj4zdro365pa	128	46	in	in	IN
work_dqud2adhprei3jnj4zdro365pa	128	47	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	128	48	gap	gap	NN
work_dqud2adhprei3jnj4zdro365pa	128	49	experimentally	experimentally	RB
work_dqud2adhprei3jnj4zdro365pa	128	50	observed	observe	VBN
work_dqud2adhprei3jnj4zdro365pa	128	51	.	.	.
work_dqud2adhprei3jnj4zdro365pa	129	1	See	see	VB
work_dqud2adhprei3jnj4zdro365pa	129	2	supplementary	supplementary	JJ
work_dqud2adhprei3jnj4zdro365pa	129	3	material	material	NN
work_dqud2adhprei3jnj4zdro365pa	129	4	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	129	5	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	129	6	complete	complete	JJ
work_dqud2adhprei3jnj4zdro365pa	129	7	description	description	NN
work_dqud2adhprei3jnj4zdro365pa	129	8	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	129	9	both	both	CC
work_dqud2adhprei3jnj4zdro365pa	129	10	experimental	experimental	JJ
work_dqud2adhprei3jnj4zdro365pa	129	11	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	129	12	theoretical	theoretical	JJ
work_dqud2adhprei3jnj4zdro365pa	129	13	setups	setup	NNS
work_dqud2adhprei3jnj4zdro365pa	129	14	.	.	.
work_dqud2adhprei3jnj4zdro365pa	130	1	Additional	additional	JJ
work_dqud2adhprei3jnj4zdro365pa	130	2	theoretical	theoretical	JJ
work_dqud2adhprei3jnj4zdro365pa	130	3	results	result	NNS
work_dqud2adhprei3jnj4zdro365pa	130	4	on	on	IN
work_dqud2adhprei3jnj4zdro365pa	130	5	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	130	6	vacancy	vacancy	NN
work_dqud2adhprei3jnj4zdro365pa	130	7	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	130	8	Cd	Cd	NNP
work_dqud2adhprei3jnj4zdro365pa	130	9	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	130	10	S	S	NNP
work_dqud2adhprei3jnj4zdro365pa	130	11	self	self	NN
work_dqud2adhprei3jnj4zdro365pa	130	12	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	130	13	interstitial	interstitial	JJ
work_dqud2adhprei3jnj4zdro365pa	130	14	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	130	15	also	also	RB
work_dqud2adhprei3jnj4zdro365pa	130	16	reported	report	VBN
work_dqud2adhprei3jnj4zdro365pa	130	17	.	.	.
work_dqud2adhprei3jnj4zdro365pa	131	1	L.G.	L.G.	NNP
work_dqud2adhprei3jnj4zdro365pa	132	1	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	132	2	A.S	A.S	NNP
work_dqud2adhprei3jnj4zdro365pa	132	3	acknowledge	acknowledge	VB
work_dqud2adhprei3jnj4zdro365pa	132	4	RAS	RAS	NNP
work_dqud2adhprei3jnj4zdro365pa	132	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	132	6	Regione	Regione	NNP
work_dqud2adhprei3jnj4zdro365pa	132	7	autonoma	autonoma	NN
work_dqud2adhprei3jnj4zdro365pa	132	8	della	della	VB
work_dqud2adhprei3jnj4zdro365pa	132	9	Sardegna	Sardegna	NNP
work_dqud2adhprei3jnj4zdro365pa	132	10	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	132	11	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	132	12	Fondazione	Fondazione	NNP
work_dqud2adhprei3jnj4zdro365pa	132	13	Banco	Banco	NNP
work_dqud2adhprei3jnj4zdro365pa	132	14	di	di	NNP
work_dqud2adhprei3jnj4zdro365pa	132	15	Sardegna	Sardegna	NNP
work_dqud2adhprei3jnj4zdro365pa	132	16	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	132	17	partial	partial	JJ
work_dqud2adhprei3jnj4zdro365pa	132	18	financial	financial	JJ
work_dqud2adhprei3jnj4zdro365pa	132	19	support	support	NN
work_dqud2adhprei3jnj4zdro365pa	132	20	.	.	.
work_dqud2adhprei3jnj4zdro365pa	133	1	They	-PRON-	PRP
work_dqud2adhprei3jnj4zdro365pa	133	2	also	also	RB
work_dqud2adhprei3jnj4zdro365pa	133	3	acknowledge	acknowledge	VBP
work_dqud2adhprei3jnj4zdro365pa	133	4	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	133	5	CINECA	CINECA	NNP
work_dqud2adhprei3jnj4zdro365pa	133	6	award	award	NN
work_dqud2adhprei3jnj4zdro365pa	133	7	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	133	8	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	133	9	ISCRA	ISCRA	NNP
work_dqud2adhprei3jnj4zdro365pa	133	10	initiative	initiative	NN
work_dqud2adhprei3jnj4zdro365pa	133	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	133	12	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	133	13	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	133	14	availability	availability	NN
work_dqud2adhprei3jnj4zdro365pa	133	15	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	133	16	high	high	JJ
work_dqud2adhprei3jnj4zdro365pa	133	17	performance	performance	NN
work_dqud2adhprei3jnj4zdro365pa	133	18	computing	computing	NN
work_dqud2adhprei3jnj4zdro365pa	133	19	resources	resource	NNS
work_dqud2adhprei3jnj4zdro365pa	133	20	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	133	21	support	support	NN
work_dqud2adhprei3jnj4zdro365pa	133	22	.	.	.
work_dqud2adhprei3jnj4zdro365pa	134	1	Also	also	RB
work_dqud2adhprei3jnj4zdro365pa	134	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	134	3	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	134	4	part	part	NN
work_dqud2adhprei3jnj4zdro365pa	134	5	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	134	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	134	7	theoretical	theoretical	JJ
work_dqud2adhprei3jnj4zdro365pa	134	8	modelling	modelling	NN
work_dqud2adhprei3jnj4zdro365pa	134	9	was	be	VBD
work_dqud2adhprei3jnj4zdro365pa	134	10	carried	carry	VBN
work_dqud2adhprei3jnj4zdro365pa	134	11	out	out	RP
work_dqud2adhprei3jnj4zdro365pa	134	12	using	use	VBG
work_dqud2adhprei3jnj4zdro365pa	134	13	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	134	14	HPC	HPC	NNP
work_dqud2adhprei3jnj4zdro365pa	134	15	infrastructures	infrastructure	NNS
work_dqud2adhprei3jnj4zdro365pa	134	16	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	134	17	CRS4	CRS4	NNP
work_dqud2adhprei3jnj4zdro365pa	134	18	,	,	,
work_dqud2adhprei3jnj4zdro365pa	134	19	Pula	Pula	NNP
work_dqud2adhprei3jnj4zdro365pa	134	20	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	134	21	Ca	Ca	NNP
work_dqud2adhprei3jnj4zdro365pa	134	22	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	134	23	,	,	,
work_dqud2adhprei3jnj4zdro365pa	134	24	Italy	Italy	NNP
work_dqud2adhprei3jnj4zdro365pa	134	25	.	.	.
work_dqud2adhprei3jnj4zdro365pa	135	1	A.S.	A.S.	NNP
work_dqud2adhprei3jnj4zdro365pa	135	2	acknowledges	acknowledge	VBZ
work_dqud2adhprei3jnj4zdro365pa	135	3	CNR	CNR	NNP
work_dqud2adhprei3jnj4zdro365pa	135	4	award	award	NN
work_dqud2adhprei3jnj4zdro365pa	135	5	under	under	IN
work_dqud2adhprei3jnj4zdro365pa	135	6	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	135	7	Short	Short	NNP
work_dqud2adhprei3jnj4zdro365pa	135	8	Mobility	Mobility	NNP
work_dqud2adhprei3jnj4zdro365pa	135	9	Program	Program	NNP
work_dqud2adhprei3jnj4zdro365pa	135	10	2017	2017	CD
work_dqud2adhprei3jnj4zdro365pa	135	11	.	.	.
work_dqud2adhprei3jnj4zdro365pa	136	1	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	136	2	authors	author	NNS
work_dqud2adhprei3jnj4zdro365pa	136	3	are	be	VBP
work_dqud2adhprei3jnj4zdro365pa	136	4	indebted	indebte	VBN
work_dqud2adhprei3jnj4zdro365pa	136	5	to	to	IN
work_dqud2adhprei3jnj4zdro365pa	136	6	Vincenzo	Vincenzo	NNP
work_dqud2adhprei3jnj4zdro365pa	136	7	Fiorentini	Fiorentini	NNP
work_dqud2adhprei3jnj4zdro365pa	136	8	for	for	IN
work_dqud2adhprei3jnj4zdro365pa	136	9	a	a	DT
work_dqud2adhprei3jnj4zdro365pa	136	10	critical	critical	JJ
work_dqud2adhprei3jnj4zdro365pa	136	11	reading	reading	NN
work_dqud2adhprei3jnj4zdro365pa	136	12	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	136	13	the	the	DT
work_dqud2adhprei3jnj4zdro365pa	136	14	manuscript	manuscript	NN
work_dqud2adhprei3jnj4zdro365pa	136	15	.	.	.
work_dqud2adhprei3jnj4zdro365pa	137	1	1	1	CD
work_dqud2adhprei3jnj4zdro365pa	137	2	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	137	3	Buchner	Buchner	NNP
work_dqud2adhprei3jnj4zdro365pa	137	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	137	5	Über	Über	NNP
work_dqud2adhprei3jnj4zdro365pa	137	6	Schwefelcadmium	Schwefelcadmium	NNP
work_dqud2adhprei3jnj4zdro365pa	137	7	und	und	JJ
work_dqud2adhprei3jnj4zdro365pa	137	8	ber	ber	NN
work_dqud2adhprei3jnj4zdro365pa	137	9	die	die	VBP
work_dqud2adhprei3jnj4zdro365pa	137	10	verschiedenen	verschiedenen	NNP
work_dqud2adhprei3jnj4zdro365pa	137	11	Cadmiumfarben	Cadmiumfarben	NNP
work_dqud2adhprei3jnj4zdro365pa	137	12	des	des	NNP
work_dqud2adhprei3jnj4zdro365pa	137	13	Handels	Handels	NNP
work_dqud2adhprei3jnj4zdro365pa	137	14	,	,	,
work_dqud2adhprei3jnj4zdro365pa	137	15	edited	edit	VBN
work_dqud2adhprei3jnj4zdro365pa	137	16	by	by	IN
work_dqud2adhprei3jnj4zdro365pa	137	17	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	137	18	Krause	Krause	NNP
work_dqud2adhprei3jnj4zdro365pa	137	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	137	20	Vol	Vol	NNP
work_dqud2adhprei3jnj4zdro365pa	137	21	.	.	.
work_dqud2adhprei3jnj4zdro365pa	138	1	11	11	CD
work_dqud2adhprei3jnj4zdro365pa	138	2	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	138	3	1887	1887	CD
work_dqud2adhprei3jnj4zdro365pa	138	4	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	138	5	pp	pp	NNP
work_dqud2adhprei3jnj4zdro365pa	138	6	.	.	.
work_dqud2adhprei3jnj4zdro365pa	139	1	1087–1089	1087–1089	CD
work_dqud2adhprei3jnj4zdro365pa	139	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	140	1	2	2	CD
work_dqud2adhprei3jnj4zdro365pa	140	2	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	141	1	Mass	Mass	NNP
work_dqud2adhprei3jnj4zdro365pa	141	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	141	3	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	141	4	Sedlmair	Sedlmair	NNP
work_dqud2adhprei3jnj4zdro365pa	141	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	141	6	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	141	7	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	141	8	Patterson	Patterson	NNP
work_dqud2adhprei3jnj4zdro365pa	141	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	141	10	D.	D.	NNP
work_dqud2adhprei3jnj4zdro365pa	141	11	Carson	Carson	NNP
work_dqud2adhprei3jnj4zdro365pa	141	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	141	13	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	141	14	Buckley	Buckley	NNP
work_dqud2adhprei3jnj4zdro365pa	141	15	,	,	,
work_dqud2adhprei3jnj4zdro365pa	141	16	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	141	17	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	141	18	Hirschmugl	Hirschmugl	NNP
work_dqud2adhprei3jnj4zdro365pa	141	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	141	20	Analyst	Analyst	NNP
work_dqud2adhprei3jnj4zdro365pa	141	21	138	138	CD
work_dqud2adhprei3jnj4zdro365pa	141	22	,	,	,
work_dqud2adhprei3jnj4zdro365pa	141	23	6032	6032	CD
work_dqud2adhprei3jnj4zdro365pa	141	24	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	141	25	2013	2013	CD
work_dqud2adhprei3jnj4zdro365pa	141	26	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	141	27	.	.	.
work_dqud2adhprei3jnj4zdro365pa	142	1	3	3	CD
work_dqud2adhprei3jnj4zdro365pa	142	2	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	142	3	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	142	4	Mass	Mass	NNP
work_dqud2adhprei3jnj4zdro365pa	142	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	142	6	R.	R.	NNP
work_dqud2adhprei3jnj4zdro365pa	142	7	Opila	Opila	NNP
work_dqud2adhprei3jnj4zdro365pa	142	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	142	9	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	142	10	Buckley	Buckley	NNP
work_dqud2adhprei3jnj4zdro365pa	142	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	142	12	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	142	13	Cotte	Cotte	NNP
work_dqud2adhprei3jnj4zdro365pa	142	14	,	,	,
work_dqud2adhprei3jnj4zdro365pa	142	15	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	143	1	Church	church	NN
work_dqud2adhprei3jnj4zdro365pa	143	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	143	3	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	143	4	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	143	5	Mehta	Mehta	NNP
work_dqud2adhprei3jnj4zdro365pa	143	6	,	,	,
work_dqud2adhprei3jnj4zdro365pa	143	7	Applied	Applied	NNP
work_dqud2adhprei3jnj4zdro365pa	143	8	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	143	9	A	A	NNP
work_dqud2adhprei3jnj4zdro365pa	143	10	111	111	CD
work_dqud2adhprei3jnj4zdro365pa	143	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	143	12	59	59	CD
work_dqud2adhprei3jnj4zdro365pa	143	13	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	143	14	2013	2013	CD
work_dqud2adhprei3jnj4zdro365pa	143	15	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	143	16	.	.	.
work_dqud2adhprei3jnj4zdro365pa	144	1	4	4	CD
work_dqud2adhprei3jnj4zdro365pa	144	2	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	144	3	Van	Van	NNP
work_dqud2adhprei3jnj4zdro365pa	144	4	der	der	NN
work_dqud2adhprei3jnj4zdro365pa	144	5	Snickt	Snickt	NNPS
work_dqud2adhprei3jnj4zdro365pa	144	6	,	,	,
work_dqud2adhprei3jnj4zdro365pa	144	7	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	144	8	Dik	Dik	NNP
work_dqud2adhprei3jnj4zdro365pa	144	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	144	10	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	144	11	Cotte	Cotte	NNP
work_dqud2adhprei3jnj4zdro365pa	144	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	144	13	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	144	14	Janssens	Janssens	NNP
work_dqud2adhprei3jnj4zdro365pa	144	15	,	,	,
work_dqud2adhprei3jnj4zdro365pa	144	16	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	144	17	Jaroszewicz	Jaroszewicz	NNP
work_dqud2adhprei3jnj4zdro365pa	144	18	,	,	,
work_dqud2adhprei3jnj4zdro365pa	144	19	W.	W.	NNP
work_dqud2adhprei3jnj4zdro365pa	144	20	De	De	NNP
work_dqud2adhprei3jnj4zdro365pa	144	21	Nolf	Nolf	NNP
work_dqud2adhprei3jnj4zdro365pa	144	22	,	,	,
work_dqud2adhprei3jnj4zdro365pa	144	23	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	144	24	Groenewegen	Groenewegen	NNP
work_dqud2adhprei3jnj4zdro365pa	144	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	144	26	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	144	27	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	144	28	Van	Van	NNP
work_dqud2adhprei3jnj4zdro365pa	144	29	der	der	IN
work_dqud2adhprei3jnj4zdro365pa	144	30	Loeff	Loeff	NNP
work_dqud2adhprei3jnj4zdro365pa	144	31	,	,	,
work_dqud2adhprei3jnj4zdro365pa	144	32	Analytical	Analytical	NNP
work_dqud2adhprei3jnj4zdro365pa	144	33	Chemistry	Chemistry	NNP
work_dqud2adhprei3jnj4zdro365pa	144	34	81	81	CD
work_dqud2adhprei3jnj4zdro365pa	144	35	,	,	,
work_dqud2adhprei3jnj4zdro365pa	144	36	2600	2600	CD
work_dqud2adhprei3jnj4zdro365pa	144	37	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	144	38	2009	2009	CD
work_dqud2adhprei3jnj4zdro365pa	144	39	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	144	40	.	.	.
work_dqud2adhprei3jnj4zdro365pa	145	1	5	5	CD
work_dqud2adhprei3jnj4zdro365pa	145	2	E.	E.	NNP
work_dqud2adhprei3jnj4zdro365pa	145	3	Pouyet	Pouyet	NNP
work_dqud2adhprei3jnj4zdro365pa	145	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	145	5	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	145	6	Cotte	Cotte	NNP
work_dqud2adhprei3jnj4zdro365pa	145	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	145	8	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	145	9	Fayard	Fayard	NNP
work_dqud2adhprei3jnj4zdro365pa	145	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	145	11	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	145	12	Salomé	Salomé	NNP
work_dqud2adhprei3jnj4zdro365pa	145	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	145	14	F.	F.	NNP
work_dqud2adhprei3jnj4zdro365pa	145	15	Meirer	Meirer	NNP
work_dqud2adhprei3jnj4zdro365pa	145	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	145	17	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	145	18	Mehta	Mehta	NNP
work_dqud2adhprei3jnj4zdro365pa	145	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	145	20	E.	E.	NNP
work_dqud2adhprei3jnj4zdro365pa	145	21	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	145	22	Uffelman	Uffelman	NNP
work_dqud2adhprei3jnj4zdro365pa	145	23	,	,	,
work_dqud2adhprei3jnj4zdro365pa	145	24	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	146	1	Hull	Hull	NNP
work_dqud2adhprei3jnj4zdro365pa	146	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	146	3	F.	F.	NNP
work_dqud2adhprei3jnj4zdro365pa	146	4	Vanmeert	Vanmeert	NNP
work_dqud2adhprei3jnj4zdro365pa	146	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	146	6	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	146	7	Kieffer	Kieffer	NNP
work_dqud2adhprei3jnj4zdro365pa	146	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	146	9	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	146	10	Burghammer	Burghammer	NNP
work_dqud2adhprei3jnj4zdro365pa	146	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	146	12	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	146	13	Janssens	Janssens	NNP
work_dqud2adhprei3jnj4zdro365pa	146	14	,	,	,
work_dqud2adhprei3jnj4zdro365pa	146	15	F.	F.	NNP
work_dqud2adhprei3jnj4zdro365pa	146	16	Sette	Sette	NNP
work_dqud2adhprei3jnj4zdro365pa	146	17	,	,	,
work_dqud2adhprei3jnj4zdro365pa	146	18	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	146	19	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	147	1	Mass	Mass	NNP
work_dqud2adhprei3jnj4zdro365pa	147	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	147	3	Applied	Applied	NNP
work_dqud2adhprei3jnj4zdro365pa	147	4	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	147	5	A	A	NNP
work_dqud2adhprei3jnj4zdro365pa	147	6	121	121	CD
work_dqud2adhprei3jnj4zdro365pa	147	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	147	8	967	967	CD
work_dqud2adhprei3jnj4zdro365pa	147	9	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	147	10	2015	2015	CD
work_dqud2adhprei3jnj4zdro365pa	147	11	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	147	12	.	.	.
work_dqud2adhprei3jnj4zdro365pa	148	1	6	6	CD
work_dqud2adhprei3jnj4zdro365pa	148	2	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	148	3	Van	Van	NNP
work_dqud2adhprei3jnj4zdro365pa	148	4	der	der	NN
work_dqud2adhprei3jnj4zdro365pa	148	5	Snickt	Snickt	NNPS
work_dqud2adhprei3jnj4zdro365pa	148	6	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	7	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	148	8	Janssens	Janssens	NNP
work_dqud2adhprei3jnj4zdro365pa	148	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	10	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	148	11	Dik	Dik	NNP
work_dqud2adhprei3jnj4zdro365pa	148	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	13	F.	F.	NNP
work_dqud2adhprei3jnj4zdro365pa	148	14	De	De	NNP
work_dqud2adhprei3jnj4zdro365pa	148	15	Nolf	Nolf	NNP
work_dqud2adhprei3jnj4zdro365pa	148	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	17	W.	W.	NNP
work_dqud2adhprei3jnj4zdro365pa	148	18	Vanmeert	Vanmeert	NNP
work_dqud2adhprei3jnj4zdro365pa	148	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	20	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	148	21	Jaroszewicz	Jaroszewicz	NNP
work_dqud2adhprei3jnj4zdro365pa	148	22	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	23	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	148	24	Cotte	Cotte	NNP
work_dqud2adhprei3jnj4zdro365pa	148	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	26	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	148	27	Falkenberg	Falkenberg	NNP
work_dqud2adhprei3jnj4zdro365pa	148	28	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	29	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	148	30	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	148	31	Van	Van	NNP
work_dqud2adhprei3jnj4zdro365pa	148	32	der	der	IN
work_dqud2adhprei3jnj4zdro365pa	148	33	Loeff	Loeff	NNP
work_dqud2adhprei3jnj4zdro365pa	148	34	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	35	Analytical	Analytical	NNP
work_dqud2adhprei3jnj4zdro365pa	148	36	Chemistry	Chemistry	NNP
work_dqud2adhprei3jnj4zdro365pa	148	37	84	84	CD
work_dqud2adhprei3jnj4zdro365pa	148	38	,	,	,
work_dqud2adhprei3jnj4zdro365pa	148	39	10221	10221	CD
work_dqud2adhprei3jnj4zdro365pa	148	40	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	148	41	2012	2012	CD
work_dqud2adhprei3jnj4zdro365pa	148	42	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	148	43	.	.	.
work_dqud2adhprei3jnj4zdro365pa	149	1	7	7	CD
work_dqud2adhprei3jnj4zdro365pa	149	2	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	149	3	P.	P.	NNP
work_dqud2adhprei3jnj4zdro365pa	149	4	Davis	Davis	NNP
work_dqud2adhprei3jnj4zdro365pa	149	5	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	149	6	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	149	7	Huang	Huang	NNP
work_dqud2adhprei3jnj4zdro365pa	149	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	149	9	Water	Water	NNP
work_dqud2adhprei3jnj4zdro365pa	149	10	Research	Research	NNP
work_dqud2adhprei3jnj4zdro365pa	149	11	25	25	CD
work_dqud2adhprei3jnj4zdro365pa	149	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	149	13	1273	1273	CD
work_dqud2adhprei3jnj4zdro365pa	149	14	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	149	15	1991	1991	CD
work_dqud2adhprei3jnj4zdro365pa	149	16	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	149	17	.	.	.
work_dqud2adhprei3jnj4zdro365pa	150	1	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	150	2	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	150	3	Paulus	Paulus	NNP
work_dqud2adhprei3jnj4zdro365pa	150	4	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	150	5	U.	U.	NNP
work_dqud2adhprei3jnj4zdro365pa	150	6	Knuutinen	Knuutinen	NNP
work_dqud2adhprei3jnj4zdro365pa	150	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	150	8	Applied	Applied	NNP
work_dqud2adhprei3jnj4zdro365pa	150	9	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	150	10	A	A	NNP
work_dqud2adhprei3jnj4zdro365pa	150	11	79	79	CD
work_dqud2adhprei3jnj4zdro365pa	150	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	150	13	397	397	CD
work_dqud2adhprei3jnj4zdro365pa	150	14	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	150	15	2004	2004	CD
work_dqud2adhprei3jnj4zdro365pa	150	16	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	150	17	.	.	.
work_dqud2adhprei3jnj4zdro365pa	151	1	9	9	CD
work_dqud2adhprei3jnj4zdro365pa	151	2	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	151	3	Romeo	Romeo	NNP
work_dqud2adhprei3jnj4zdro365pa	151	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	151	5	D.	D.	NNP
work_dqud2adhprei3jnj4zdro365pa	151	6	Bätzner	Bätzner	NNP
work_dqud2adhprei3jnj4zdro365pa	151	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	151	8	H.	H.	NNP
work_dqud2adhprei3jnj4zdro365pa	151	9	Zogg	Zogg	NNP
work_dqud2adhprei3jnj4zdro365pa	151	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	151	11	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	151	12	Vignali	Vignali	NNP
work_dqud2adhprei3jnj4zdro365pa	151	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	151	14	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	151	15	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	151	16	Tiwari	Tiwari	NNP
work_dqud2adhprei3jnj4zdro365pa	151	17	,	,	,
work_dqud2adhprei3jnj4zdro365pa	151	18	Solar	Solar	NNP
work_dqud2adhprei3jnj4zdro365pa	151	19	Energy	Energy	NNP
work_dqud2adhprei3jnj4zdro365pa	151	20	Materials	Materials	NNPS
work_dqud2adhprei3jnj4zdro365pa	151	21	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	151	22	Solar	Solar	NNP
work_dqud2adhprei3jnj4zdro365pa	151	23	Cells	Cells	NNPS
work_dqud2adhprei3jnj4zdro365pa	151	24	67	67	CD
work_dqud2adhprei3jnj4zdro365pa	151	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	151	26	311	311	CD
work_dqud2adhprei3jnj4zdro365pa	151	27	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	151	28	2001	2001	CD
work_dqud2adhprei3jnj4zdro365pa	151	29	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	151	30	.	.	.
work_dqud2adhprei3jnj4zdro365pa	152	1	10	10	CD
work_dqud2adhprei3jnj4zdro365pa	152	2	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	152	3	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	152	4	Fahrenbruch	Fahrenbruch	NNP
work_dqud2adhprei3jnj4zdro365pa	152	5	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	152	6	R.	R.	NNP
work_dqud2adhprei3jnj4zdro365pa	152	7	H.	H.	NNP
work_dqud2adhprei3jnj4zdro365pa	152	8	Bube	Bube	NNP
work_dqud2adhprei3jnj4zdro365pa	152	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	152	10	Fundamentals	fundamental	NNS
work_dqud2adhprei3jnj4zdro365pa	152	11	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	152	12	solar	solar	JJ
work_dqud2adhprei3jnj4zdro365pa	152	13	cells	cell	NNS
work_dqud2adhprei3jnj4zdro365pa	152	14	:	:	:
work_dqud2adhprei3jnj4zdro365pa	152	15	photovoltaic	photovoltaic	NNP
work_dqud2adhprei3jnj4zdro365pa	152	16	solar	solar	NNP
work_dqud2adhprei3jnj4zdro365pa	152	17	energy	energy	NN
work_dqud2adhprei3jnj4zdro365pa	152	18	conversion	conversion	NN
work_dqud2adhprei3jnj4zdro365pa	152	19	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	152	20	New	New	NNP
work_dqud2adhprei3jnj4zdro365pa	152	21	York	York	NNP
work_dqud2adhprei3jnj4zdro365pa	152	22	:	:	:
work_dqud2adhprei3jnj4zdro365pa	152	23	Academic	Academic	NNP
work_dqud2adhprei3jnj4zdro365pa	152	24	Press	Press	NNP
work_dqud2adhprei3jnj4zdro365pa	152	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	152	26	1983	1983	CD
work_dqud2adhprei3jnj4zdro365pa	152	27	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	152	28	.	.	.
work_dqud2adhprei3jnj4zdro365pa	153	1	11	11	CD
work_dqud2adhprei3jnj4zdro365pa	153	2	T.	T.	NNP
work_dqud2adhprei3jnj4zdro365pa	153	3	Dzhafarov	Dzhafarov	NNP
work_dqud2adhprei3jnj4zdro365pa	153	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	153	5	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	153	6	Altunbas	Altunbas	NNP
work_dqud2adhprei3jnj4zdro365pa	153	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	153	8	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	153	9	I.	I.	NNP
work_dqud2adhprei3jnj4zdro365pa	153	10	Kopya	Kopya	NNP
work_dqud2adhprei3jnj4zdro365pa	153	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	153	12	V.	V.	NNP
work_dqud2adhprei3jnj4zdro365pa	153	13	Novruzov	Novruzov	NNP
work_dqud2adhprei3jnj4zdro365pa	153	14	,	,	,
work_dqud2adhprei3jnj4zdro365pa	153	15	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	153	16	E.	E.	NNP
work_dqud2adhprei3jnj4zdro365pa	153	17	Bacaksiz	Bacaksiz	NNP
work_dqud2adhprei3jnj4zdro365pa	153	18	,	,	,
work_dqud2adhprei3jnj4zdro365pa	153	19	Journal	Journal	NNP
work_dqud2adhprei3jnj4zdro365pa	153	20	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	153	21	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	153	22	D	d	NN
work_dqud2adhprei3jnj4zdro365pa	153	23	:	:	:
work_dqud2adhprei3jnj4zdro365pa	153	24	Applied	Applied	NNP
work_dqud2adhprei3jnj4zdro365pa	153	25	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	153	26	32	32	CD
work_dqud2adhprei3jnj4zdro365pa	153	27	,	,	,
work_dqud2adhprei3jnj4zdro365pa	153	28	L125	L125	NNP
work_dqud2adhprei3jnj4zdro365pa	153	29	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	153	30	1999	1999	CD
work_dqud2adhprei3jnj4zdro365pa	153	31	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	153	32	.	.	.
work_dqud2adhprei3jnj4zdro365pa	154	1	12	12	CD
work_dqud2adhprei3jnj4zdro365pa	154	2	X.	X.	NNP
work_dqud2adhprei3jnj4zdro365pa	154	3	Duan	Duan	NNP
work_dqud2adhprei3jnj4zdro365pa	154	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	154	5	Y.	Y.	NNP
work_dqud2adhprei3jnj4zdro365pa	154	6	Huang	Huang	NNP
work_dqud2adhprei3jnj4zdro365pa	154	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	154	8	R.	R.	NNP
work_dqud2adhprei3jnj4zdro365pa	154	9	Agarwal	Agarwal	NNP
work_dqud2adhprei3jnj4zdro365pa	154	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	154	11	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	154	12	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	154	13	Lieber	Lieber	NNP
work_dqud2adhprei3jnj4zdro365pa	154	14	,	,	,
work_dqud2adhprei3jnj4zdro365pa	154	15	Nature	Nature	NNP
work_dqud2adhprei3jnj4zdro365pa	154	16	421	421	CD
work_dqud2adhprei3jnj4zdro365pa	154	17	,	,	,
work_dqud2adhprei3jnj4zdro365pa	154	18	241	241	CD
work_dqud2adhprei3jnj4zdro365pa	154	19	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	154	20	2003	2003	CD
work_dqud2adhprei3jnj4zdro365pa	154	21	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	154	22	.	.	.
work_dqud2adhprei3jnj4zdro365pa	155	1	13	13	CD
work_dqud2adhprei3jnj4zdro365pa	155	2	N.	N.	NNP
work_dqud2adhprei3jnj4zdro365pa	155	3	V.	V.	NNP
work_dqud2adhprei3jnj4zdro365pa	155	4	Hullavarad	Hullavarad	NNP
work_dqud2adhprei3jnj4zdro365pa	155	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	155	6	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	155	7	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	155	8	Hullavarad	Hullavarad	NNP
work_dqud2adhprei3jnj4zdro365pa	155	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	155	10	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	155	11	P.	P.	NNP
work_dqud2adhprei3jnj4zdro365pa	155	12	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	155	13	Karulkar	Karulkar	NNP
work_dqud2adhprei3jnj4zdro365pa	155	14	,	,	,
work_dqud2adhprei3jnj4zdro365pa	155	15	Journal	Journal	NNP
work_dqud2adhprei3jnj4zdro365pa	155	16	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	155	17	Nanoscience	Nanoscience	NNP
work_dqud2adhprei3jnj4zdro365pa	155	18	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	155	19	Nanotechnology	Nanotechnology	NNP
work_dqud2adhprei3jnj4zdro365pa	155	20	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	155	21	,	,	,
work_dqud2adhprei3jnj4zdro365pa	155	22	3272	3272	CD
work_dqud2adhprei3jnj4zdro365pa	155	23	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	155	24	2008	2008	CD
work_dqud2adhprei3jnj4zdro365pa	155	25	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	155	26	.	.	.
work_dqud2adhprei3jnj4zdro365pa	156	1	14	14	CD
work_dqud2adhprei3jnj4zdro365pa	156	2	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	156	3	Merkoçi	Merkoçi	NNP
work_dqud2adhprei3jnj4zdro365pa	156	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	156	5	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	156	6	Humberto	Humberto	NNP
work_dqud2adhprei3jnj4zdro365pa	156	7	Marcolino	Marcolino	NNP
work_dqud2adhprei3jnj4zdro365pa	156	8	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	156	9	Junior	Junior	NNP
work_dqud2adhprei3jnj4zdro365pa	156	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	156	11	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	156	12	Marı́n	Marı́n	NNP
work_dqud2adhprei3jnj4zdro365pa	156	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	156	14	O.	O.	NNP
work_dqud2adhprei3jnj4zdro365pa	156	15	Fatibello	Fatibello	NNP
work_dqud2adhprei3jnj4zdro365pa	156	16	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	156	17	Filho	Filho	NNP
work_dqud2adhprei3jnj4zdro365pa	156	18	,	,	,
work_dqud2adhprei3jnj4zdro365pa	156	19	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	156	20	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	156	21	Alegret	Alegret	NNP
work_dqud2adhprei3jnj4zdro365pa	156	22	,	,	,
work_dqud2adhprei3jnj4zdro365pa	156	23	Nanotechnology	Nanotechnology	NNP
work_dqud2adhprei3jnj4zdro365pa	156	24	18	18	CD
work_dqud2adhprei3jnj4zdro365pa	156	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	156	26	035502	035502	CD
work_dqud2adhprei3jnj4zdro365pa	156	27	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	156	28	2007	2007	CD
work_dqud2adhprei3jnj4zdro365pa	156	29	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	156	30	.	.	.
work_dqud2adhprei3jnj4zdro365pa	157	1	15	15	CD
work_dqud2adhprei3jnj4zdro365pa	157	2	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	158	1	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	158	2	Kulp	Kulp	NNP
work_dqud2adhprei3jnj4zdro365pa	158	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	158	4	Phys	Phys	NNP
work_dqud2adhprei3jnj4zdro365pa	158	5	.	.	.
work_dqud2adhprei3jnj4zdro365pa	159	1	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	160	1	125	125	CD
work_dqud2adhprei3jnj4zdro365pa	160	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	160	3	1865	1865	CD
work_dqud2adhprei3jnj4zdro365pa	160	4	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	160	5	1962	1962	CD
work_dqud2adhprei3jnj4zdro365pa	160	6	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	160	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	161	1	16	16	CD
work_dqud2adhprei3jnj4zdro365pa	161	2	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	161	3	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	161	4	Ramsden	Ramsden	NNP
work_dqud2adhprei3jnj4zdro365pa	161	5	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	161	6	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	161	7	Gratzel	Gratzel	NNP
work_dqud2adhprei3jnj4zdro365pa	161	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	161	9	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	161	10	Chem	Chem	NNP
work_dqud2adhprei3jnj4zdro365pa	161	11	.	.	.
work_dqud2adhprei3jnj4zdro365pa	162	1	Soc	Soc	NNP
work_dqud2adhprei3jnj4zdro365pa	162	2	.	.	NNP
work_dqud2adhprei3jnj4zdro365pa	162	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	162	4	Faraday	Faraday	NNP
work_dqud2adhprei3jnj4zdro365pa	162	5	Trans	Trans	NNP
work_dqud2adhprei3jnj4zdro365pa	162	6	.	.	.
work_dqud2adhprei3jnj4zdro365pa	163	1	1	1	CD
work_dqud2adhprei3jnj4zdro365pa	163	2	80	80	CD
work_dqud2adhprei3jnj4zdro365pa	163	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	163	4	919	919	CD
work_dqud2adhprei3jnj4zdro365pa	163	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	163	6	1984	1984	CD
work_dqud2adhprei3jnj4zdro365pa	163	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	163	8	.	.	.
work_dqud2adhprei3jnj4zdro365pa	164	1	17	17	CD
work_dqud2adhprei3jnj4zdro365pa	164	2	O.	O.	NNP
work_dqud2adhprei3jnj4zdro365pa	164	3	Cretu	Cretu	NNP
work_dqud2adhprei3jnj4zdro365pa	164	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	164	5	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	164	6	Zhang	Zhang	NNP
work_dqud2adhprei3jnj4zdro365pa	164	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	164	8	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	164	9	D.	D.	NNP
work_dqud2adhprei3jnj4zdro365pa	164	10	Golberg	Golberg	NNP
work_dqud2adhprei3jnj4zdro365pa	164	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	164	12	Applied	Applied	NNP
work_dqud2adhprei3jnj4zdro365pa	164	13	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	164	14	Letters	Letters	NNPS
work_dqud2adhprei3jnj4zdro365pa	164	15	110	110	CD
work_dqud2adhprei3jnj4zdro365pa	164	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	164	17	111904	111904	CD
work_dqud2adhprei3jnj4zdro365pa	164	18	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	164	19	2017	2017	CD
work_dqud2adhprei3jnj4zdro365pa	164	20	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	164	21	.	.	.
work_dqud2adhprei3jnj4zdro365pa	165	1	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	ftp://ftp.aip.org/epaps/aip_advances/E-AAIDBI-8-108805	NNP
work_dqud2adhprei3jnj4zdro365pa	165	2	https://doi.org/10.1039/c3an00892d	https://doi.org/10.1039/c3an00892d	NNP
work_dqud2adhprei3jnj4zdro365pa	165	3	https://doi.org/10.1007/s00339-012-7418-0	https://doi.org/10.1007/s00339-012-7418-0	PRP$
work_dqud2adhprei3jnj4zdro365pa	165	4	https://doi.org/10.1021/ac802518z	https://doi.org/10.1021/ac802518z	NN
work_dqud2adhprei3jnj4zdro365pa	165	5	https://doi.org/10.1007/s00339-015-9239-4	https://doi.org/10.1007/s00339-015-9239-4	NN
work_dqud2adhprei3jnj4zdro365pa	165	6	https://doi.org/10.1021/ac3015627	https://doi.org/10.1021/ac3015627	CC
work_dqud2adhprei3jnj4zdro365pa	165	7	https://doi.org/10.1016/0043-1354(91)90067-z	https://doi.org/10.1016/0043-1354(91)90067-z	VB
work_dqud2adhprei3jnj4zdro365pa	165	8	https://doi.org/10.1007/s00339-004-2646-6	https://doi.org/10.1007/s00339-004-2646-6	RB
work_dqud2adhprei3jnj4zdro365pa	165	9	https://doi.org/10.1016/s0927-0248(00)00297-x	https://doi.org/10.1016/s0927-0248(00)00297-x	JJ
work_dqud2adhprei3jnj4zdro365pa	165	10	https://doi.org/10.1088/0022-3727/32/24/101	https://doi.org/10.1088/0022-3727/32/24/101	NN
work_dqud2adhprei3jnj4zdro365pa	165	11	https://doi.org/10.1038/nature01353	https://doi.org/10.1038/nature01353	VBG
work_dqud2adhprei3jnj4zdro365pa	165	12	https://doi.org/10.1166/jnn.2008.145	https://doi.org/10.1166/jnn.2008.145	NNP
work_dqud2adhprei3jnj4zdro365pa	165	13	https://doi.org/10.1088/0957-4484/18/3/035502	https://doi.org/10.1088/0957-4484/18/3/035502	NNP
work_dqud2adhprei3jnj4zdro365pa	165	14	https://doi.org/10.1103/physrev.125.1865	https://doi.org/10.1103/physrev.125.1865	NNP
work_dqud2adhprei3jnj4zdro365pa	165	15	https://doi.org/10.1039/f19848000919	https://doi.org/10.1039/f19848000919	NNP
work_dqud2adhprei3jnj4zdro365pa	165	16	https://doi.org/10.1063/1.4978603	https://doi.org/10.1063/1.4978603	NNP
work_dqud2adhprei3jnj4zdro365pa	165	17	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	165	18	-	-	SYM
work_dqud2adhprei3jnj4zdro365pa	165	19	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	165	20	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	165	21	et	et	NNP
work_dqud2adhprei3jnj4zdro365pa	165	22	al	al	NNP
work_dqud2adhprei3jnj4zdro365pa	165	23	.	.	.
work_dqud2adhprei3jnj4zdro365pa	166	1	AIP	AIP	NNP
work_dqud2adhprei3jnj4zdro365pa	166	2	Advances	Advances	NNP
work_dqud2adhprei3jnj4zdro365pa	166	3	8	8	CD
work_dqud2adhprei3jnj4zdro365pa	166	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	166	5	065202	065202	CD
work_dqud2adhprei3jnj4zdro365pa	166	6	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	166	7	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	166	8	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	166	9	18	18	CD
work_dqud2adhprei3jnj4zdro365pa	166	10	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	166	11	Thoury	Thoury	NNP
work_dqud2adhprei3jnj4zdro365pa	166	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	166	13	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	166	14	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	166	15	Delaney	Delaney	NNP
work_dqud2adhprei3jnj4zdro365pa	166	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	166	17	E.	E.	NNP
work_dqud2adhprei3jnj4zdro365pa	166	18	R.	R.	NNP
work_dqud2adhprei3jnj4zdro365pa	166	19	de	de	NNP
work_dqud2adhprei3jnj4zdro365pa	166	20	la	la	NNP
work_dqud2adhprei3jnj4zdro365pa	166	21	Rie	Rie	NNP
work_dqud2adhprei3jnj4zdro365pa	166	22	,	,	,
work_dqud2adhprei3jnj4zdro365pa	166	23	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	166	24	Palmer	Palmer	NNP
work_dqud2adhprei3jnj4zdro365pa	166	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	166	26	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	166	27	Morales	Morales	NNP
work_dqud2adhprei3jnj4zdro365pa	166	28	,	,	,
work_dqud2adhprei3jnj4zdro365pa	166	29	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	166	30	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	166	31	Jay	Jay	NNP
work_dqud2adhprei3jnj4zdro365pa	166	32	,	,	,
work_dqud2adhprei3jnj4zdro365pa	166	33	Appl	Appl	NNP
work_dqud2adhprei3jnj4zdro365pa	166	34	.	.	.
work_dqud2adhprei3jnj4zdro365pa	167	1	Spectrosc	Spectrosc	NNP
work_dqud2adhprei3jnj4zdro365pa	167	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	168	1	65	65	CD
work_dqud2adhprei3jnj4zdro365pa	168	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	168	3	939	939	CD
work_dqud2adhprei3jnj4zdro365pa	168	4	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	168	5	2011	2011	CD
work_dqud2adhprei3jnj4zdro365pa	168	6	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	168	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	169	1	19	19	CD
work_dqud2adhprei3jnj4zdro365pa	169	2	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	169	3	Cesaratto	Cesaratto	NNP
work_dqud2adhprei3jnj4zdro365pa	169	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	169	5	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	169	6	D’Andrea	D’Andrea	NNP
work_dqud2adhprei3jnj4zdro365pa	169	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	169	8	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	169	9	Nevin	Nevin	NNP
work_dqud2adhprei3jnj4zdro365pa	169	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	169	11	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	169	12	Valentini	Valentini	NNP
work_dqud2adhprei3jnj4zdro365pa	169	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	169	14	F.	F.	NNP
work_dqud2adhprei3jnj4zdro365pa	169	15	Tassone	Tassone	NNP
work_dqud2adhprei3jnj4zdro365pa	169	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	169	17	R.	R.	NNP
work_dqud2adhprei3jnj4zdro365pa	169	18	Alberti	Alberti	NNP
work_dqud2adhprei3jnj4zdro365pa	169	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	169	20	T.	T.	NNP
work_dqud2adhprei3jnj4zdro365pa	169	21	Frizzi	Frizzi	NNP
work_dqud2adhprei3jnj4zdro365pa	169	22	,	,	,
work_dqud2adhprei3jnj4zdro365pa	169	23	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	169	24	D.	D.	NNP
work_dqud2adhprei3jnj4zdro365pa	169	25	Comelli	Comelli	NNP
work_dqud2adhprei3jnj4zdro365pa	169	26	,	,	,
work_dqud2adhprei3jnj4zdro365pa	169	27	Anal	Anal	NNP
work_dqud2adhprei3jnj4zdro365pa	169	28	.	.	.
work_dqud2adhprei3jnj4zdro365pa	170	1	Methods	Methods	NNP
work_dqud2adhprei3jnj4zdro365pa	170	2	6	6	CD
work_dqud2adhprei3jnj4zdro365pa	170	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	170	4	130	130	CD
work_dqud2adhprei3jnj4zdro365pa	170	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	170	6	2014	2014	CD
work_dqud2adhprei3jnj4zdro365pa	170	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	170	8	.	.	.
work_dqud2adhprei3jnj4zdro365pa	171	1	20	20	CD
work_dqud2adhprei3jnj4zdro365pa	171	2	F.	F.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	3	Rosi	Rosi	NNP
work_dqud2adhprei3jnj4zdro365pa	171	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	5	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	6	Grazia	Grazia	NNP
work_dqud2adhprei3jnj4zdro365pa	171	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	8	F.	F.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	9	Gabrieli	Gabrieli	NNP
work_dqud2adhprei3jnj4zdro365pa	171	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	11	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	12	Romani	Romani	NNP
work_dqud2adhprei3jnj4zdro365pa	171	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	14	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	15	Paolantoni	Paolantoni	NNP
work_dqud2adhprei3jnj4zdro365pa	171	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	17	R.	R.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	18	Vivani	Vivani	NNP
work_dqud2adhprei3jnj4zdro365pa	171	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	20	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	21	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	22	Brunetti	Brunetti	NNP
work_dqud2adhprei3jnj4zdro365pa	171	23	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	24	P.	P.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	25	Colomban	Colomban	NNP
work_dqud2adhprei3jnj4zdro365pa	171	26	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	27	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	171	28	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	171	29	Miliani	Miliani	NNP
work_dqud2adhprei3jnj4zdro365pa	171	30	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	31	Microchemical	Microchemical	NNP
work_dqud2adhprei3jnj4zdro365pa	171	32	Journal	Journal	NNP
work_dqud2adhprei3jnj4zdro365pa	171	33	124	124	CD
work_dqud2adhprei3jnj4zdro365pa	171	34	,	,	,
work_dqud2adhprei3jnj4zdro365pa	171	35	856	856	CD
work_dqud2adhprei3jnj4zdro365pa	171	36	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	171	37	2016	2016	CD
work_dqud2adhprei3jnj4zdro365pa	171	38	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	171	39	.	.	.
work_dqud2adhprei3jnj4zdro365pa	172	1	21	21	CD
work_dqud2adhprei3jnj4zdro365pa	172	2	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	3	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	4	Delaney	Delaney	NNP
work_dqud2adhprei3jnj4zdro365pa	172	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	172	6	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	7	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	8	Zeibel	Zeibel	NNP
work_dqud2adhprei3jnj4zdro365pa	172	9	,	,	,
work_dqud2adhprei3jnj4zdro365pa	172	10	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	11	Thoury	Thoury	NNP
work_dqud2adhprei3jnj4zdro365pa	172	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	172	13	R.	R.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	14	Littleton	Littleton	NNP
work_dqud2adhprei3jnj4zdro365pa	172	15	,	,	,
work_dqud2adhprei3jnj4zdro365pa	172	16	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	17	Palmer	Palmer	NNP
work_dqud2adhprei3jnj4zdro365pa	172	18	,	,	,
work_dqud2adhprei3jnj4zdro365pa	172	19	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	20	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	21	Morales	Morales	NNP
work_dqud2adhprei3jnj4zdro365pa	172	22	,	,	,
work_dqud2adhprei3jnj4zdro365pa	172	23	E.	E.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	24	R.	R.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	25	de	de	NNP
work_dqud2adhprei3jnj4zdro365pa	172	26	la	la	NNP
work_dqud2adhprei3jnj4zdro365pa	172	27	Rie	Rie	NNP
work_dqud2adhprei3jnj4zdro365pa	172	28	,	,	,
work_dqud2adhprei3jnj4zdro365pa	172	29	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	172	30	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	172	31	Hoenigswald	Hoenigswald	NNP
work_dqud2adhprei3jnj4zdro365pa	172	32	,	,	,
work_dqud2adhprei3jnj4zdro365pa	172	33	Appl	Appl	NNP
work_dqud2adhprei3jnj4zdro365pa	172	34	.	.	.
work_dqud2adhprei3jnj4zdro365pa	173	1	Spectrosc	Spectrosc	NNP
work_dqud2adhprei3jnj4zdro365pa	173	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	174	1	64	64	CD
work_dqud2adhprei3jnj4zdro365pa	174	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	174	3	584	584	CD
work_dqud2adhprei3jnj4zdro365pa	174	4	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	174	5	2010	2010	CD
work_dqud2adhprei3jnj4zdro365pa	174	6	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	174	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	175	1	22	22	CD
work_dqud2adhprei3jnj4zdro365pa	175	2	P.	P.	NNP
work_dqud2adhprei3jnj4zdro365pa	175	3	Giannozzi	Giannozzi	NNP
work_dqud2adhprei3jnj4zdro365pa	175	4	et	et	NNP
work_dqud2adhprei3jnj4zdro365pa	175	5	al	al	NNP
work_dqud2adhprei3jnj4zdro365pa	175	6	.	.	NNP
work_dqud2adhprei3jnj4zdro365pa	175	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	175	8	Journal	Journal	NNP
work_dqud2adhprei3jnj4zdro365pa	175	9	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	175	10	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	175	11	:	:	.
work_dqud2adhprei3jnj4zdro365pa	175	12	Condensed	condense	VBN
work_dqud2adhprei3jnj4zdro365pa	175	13	Matter	Matter	NNP
work_dqud2adhprei3jnj4zdro365pa	175	14	21	21	CD
work_dqud2adhprei3jnj4zdro365pa	175	15	,	,	,
work_dqud2adhprei3jnj4zdro365pa	175	16	395502	395502	CD
work_dqud2adhprei3jnj4zdro365pa	175	17	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	175	18	2009	2009	CD
work_dqud2adhprei3jnj4zdro365pa	175	19	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	175	20	.	.	.
work_dqud2adhprei3jnj4zdro365pa	176	1	23	23	CD
work_dqud2adhprei3jnj4zdro365pa	176	2	D.	D.	NNP
work_dqud2adhprei3jnj4zdro365pa	176	3	Vanderbilt	Vanderbilt	NNP
work_dqud2adhprei3jnj4zdro365pa	176	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	176	5	Phys	Phys	NNP
work_dqud2adhprei3jnj4zdro365pa	176	6	.	.	.
work_dqud2adhprei3jnj4zdro365pa	177	1	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	178	1	B	b	NN
work_dqud2adhprei3jnj4zdro365pa	178	2	41	41	CD
work_dqud2adhprei3jnj4zdro365pa	178	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	178	4	7892	7892	CD
work_dqud2adhprei3jnj4zdro365pa	178	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	178	6	1990	1990	CD
work_dqud2adhprei3jnj4zdro365pa	178	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	178	8	.	.	.
work_dqud2adhprei3jnj4zdro365pa	179	1	24	24	CD
work_dqud2adhprei3jnj4zdro365pa	179	2	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	179	3	P.	P.	NNP
work_dqud2adhprei3jnj4zdro365pa	179	4	Perdew	Perdew	NNP
work_dqud2adhprei3jnj4zdro365pa	179	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	179	6	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	179	7	Burke	Burke	NNP
work_dqud2adhprei3jnj4zdro365pa	179	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	179	9	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	179	10	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	179	11	Ernzerhof	Ernzerhof	NNP
work_dqud2adhprei3jnj4zdro365pa	179	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	179	13	Phys	Phys	NNP
work_dqud2adhprei3jnj4zdro365pa	179	14	.	.	.
work_dqud2adhprei3jnj4zdro365pa	180	1	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	181	1	Lett	Lett	NNP
work_dqud2adhprei3jnj4zdro365pa	181	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	182	1	77	77	CD
work_dqud2adhprei3jnj4zdro365pa	182	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	182	3	3865	3865	CD
work_dqud2adhprei3jnj4zdro365pa	182	4	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	182	5	1996	1996	CD
work_dqud2adhprei3jnj4zdro365pa	182	6	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	182	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	183	1	25	25	CD
work_dqud2adhprei3jnj4zdro365pa	183	2	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	183	3	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	183	4	Agapito	Agapito	NNP
work_dqud2adhprei3jnj4zdro365pa	183	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	183	6	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	183	7	Curtarolo	Curtarolo	NNP
work_dqud2adhprei3jnj4zdro365pa	183	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	183	9	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	183	10	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	183	11	Buongiorno	Buongiorno	NNP
work_dqud2adhprei3jnj4zdro365pa	183	12	Nardelli	Nardelli	NNP
work_dqud2adhprei3jnj4zdro365pa	183	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	183	14	Phys	Phys	NNP
work_dqud2adhprei3jnj4zdro365pa	183	15	.	.	.
work_dqud2adhprei3jnj4zdro365pa	184	1	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	185	1	X	X	NNP
work_dqud2adhprei3jnj4zdro365pa	185	2	5	5	CD
work_dqud2adhprei3jnj4zdro365pa	185	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	185	4	011006	011006	CD
work_dqud2adhprei3jnj4zdro365pa	185	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	185	6	2015	2015	CD
work_dqud2adhprei3jnj4zdro365pa	185	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	185	8	.	.	.
work_dqud2adhprei3jnj4zdro365pa	186	1	26	26	CD
work_dqud2adhprei3jnj4zdro365pa	186	2	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	186	3	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	186	4	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	186	5	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	186	6	Satta	Satta	NNP
work_dqud2adhprei3jnj4zdro365pa	186	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	186	8	Journal	Journal	NNP
work_dqud2adhprei3jnj4zdro365pa	186	9	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	186	10	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	186	11	:	:	:
work_dqud2adhprei3jnj4zdro365pa	186	12	Conference	Conference	NNP
work_dqud2adhprei3jnj4zdro365pa	186	13	Series	Series	NNP
work_dqud2adhprei3jnj4zdro365pa	186	14	566	566	CD
work_dqud2adhprei3jnj4zdro365pa	186	15	,	,	,
work_dqud2adhprei3jnj4zdro365pa	186	16	012021	012021	CD
work_dqud2adhprei3jnj4zdro365pa	186	17	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	186	18	2015	2015	CD
work_dqud2adhprei3jnj4zdro365pa	186	19	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	186	20	.	.	.
work_dqud2adhprei3jnj4zdro365pa	187	1	27	27	CD
work_dqud2adhprei3jnj4zdro365pa	187	2	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	187	3	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	187	4	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	187	5	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	187	6	Satta	Satta	NNP
work_dqud2adhprei3jnj4zdro365pa	187	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	187	8	Microchemical	Microchemical	NNP
work_dqud2adhprei3jnj4zdro365pa	187	9	Journal	Journal	NNP
work_dqud2adhprei3jnj4zdro365pa	187	10	126	126	CD
work_dqud2adhprei3jnj4zdro365pa	187	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	187	12	214	214	CD
work_dqud2adhprei3jnj4zdro365pa	187	13	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	187	14	2016	2016	CD
work_dqud2adhprei3jnj4zdro365pa	187	15	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	187	16	.	.	.
work_dqud2adhprei3jnj4zdro365pa	188	1	28	28	CD
work_dqud2adhprei3jnj4zdro365pa	188	2	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	188	3	Giacopetti	Giacopetti	NNP
work_dqud2adhprei3jnj4zdro365pa	188	4	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	188	5	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	188	6	Satta	Satta	NNP
work_dqud2adhprei3jnj4zdro365pa	188	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	188	8	Microchemical	Microchemical	NNP
work_dqud2adhprei3jnj4zdro365pa	188	9	Journal	Journal	NNP
work_dqud2adhprei3jnj4zdro365pa	188	10	137	137	CD
work_dqud2adhprei3jnj4zdro365pa	188	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	188	12	502	502	CD
work_dqud2adhprei3jnj4zdro365pa	188	13	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	188	14	2018	2018	CD
work_dqud2adhprei3jnj4zdro365pa	188	15	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	188	16	.	.	.
work_dqud2adhprei3jnj4zdro365pa	189	1	29	29	CD
work_dqud2adhprei3jnj4zdro365pa	189	2	P.	P.	NNP
work_dqud2adhprei3jnj4zdro365pa	189	3	Gopal	Gopal	NNP
work_dqud2adhprei3jnj4zdro365pa	189	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	189	5	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	189	6	Fornari	Fornari	NNP
work_dqud2adhprei3jnj4zdro365pa	189	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	189	8	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	189	9	Curtarolo	Curtarolo	NNP
work_dqud2adhprei3jnj4zdro365pa	189	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	189	11	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	189	12	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	189	13	Agapito	Agapito	NNP
work_dqud2adhprei3jnj4zdro365pa	189	14	,	,	,
work_dqud2adhprei3jnj4zdro365pa	189	15	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	189	16	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	189	17	I.	I.	NNP
work_dqud2adhprei3jnj4zdro365pa	189	18	Liyanage	Liyanage	NNP
work_dqud2adhprei3jnj4zdro365pa	189	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	189	20	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	189	21	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	189	22	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	189	23	Nardelli	Nardelli	NNP
work_dqud2adhprei3jnj4zdro365pa	189	24	,	,	,
work_dqud2adhprei3jnj4zdro365pa	189	25	Phys	Phys	NNP
work_dqud2adhprei3jnj4zdro365pa	189	26	.	.	.
work_dqud2adhprei3jnj4zdro365pa	190	1	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	191	1	B	b	NN
work_dqud2adhprei3jnj4zdro365pa	191	2	91	91	CD
work_dqud2adhprei3jnj4zdro365pa	191	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	191	4	245202	245202	CD
work_dqud2adhprei3jnj4zdro365pa	191	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	191	6	2015	2015	CD
work_dqud2adhprei3jnj4zdro365pa	191	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	191	8	.	.	.
work_dqud2adhprei3jnj4zdro365pa	192	1	30	30	CD
work_dqud2adhprei3jnj4zdro365pa	192	2	F.	F.	NNP
work_dqud2adhprei3jnj4zdro365pa	192	3	Fabbri	Fabbri	NNP
work_dqud2adhprei3jnj4zdro365pa	192	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	5	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	192	6	Villani	Villani	NNP
work_dqud2adhprei3jnj4zdro365pa	192	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	8	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	192	9	Catellani	Catellani	NNP
work_dqud2adhprei3jnj4zdro365pa	192	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	11	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	192	12	Calzolari	Calzolari	NNP
work_dqud2adhprei3jnj4zdro365pa	192	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	14	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	192	15	Cicero	Cicero	NNP
work_dqud2adhprei3jnj4zdro365pa	192	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	17	D.	D.	NNP
work_dqud2adhprei3jnj4zdro365pa	192	18	Calestani	Calestani	NNP
work_dqud2adhprei3jnj4zdro365pa	192	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	20	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	192	21	Calestani	Calestani	NNP
work_dqud2adhprei3jnj4zdro365pa	192	22	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	23	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	192	24	Zappettini	Zappettini	NNP
work_dqud2adhprei3jnj4zdro365pa	192	25	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	26	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	192	27	Dierre	Dierre	NNP
work_dqud2adhprei3jnj4zdro365pa	192	28	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	29	T.	T.	NNP
work_dqud2adhprei3jnj4zdro365pa	192	30	Sekiguchi	Sekiguchi	NNP
work_dqud2adhprei3jnj4zdro365pa	192	31	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	32	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	192	33	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	192	34	Salviati	Salviati	NNP
work_dqud2adhprei3jnj4zdro365pa	192	35	,	,	,
work_dqud2adhprei3jnj4zdro365pa	192	36	Sci	Sci	NNP
work_dqud2adhprei3jnj4zdro365pa	192	37	.	.	.
work_dqud2adhprei3jnj4zdro365pa	193	1	Rep.	Rep.	NNP
work_dqud2adhprei3jnj4zdro365pa	193	2	4	4	CD
work_dqud2adhprei3jnj4zdro365pa	193	3	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	193	4	2014	2014	CD
work_dqud2adhprei3jnj4zdro365pa	193	5	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	193	6	.	.	.
work_dqud2adhprei3jnj4zdro365pa	194	1	31	31	CD
work_dqud2adhprei3jnj4zdro365pa	194	2	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	194	3	P.	P.	NNP
work_dqud2adhprei3jnj4zdro365pa	194	4	Perdew	Perdew	NNP
work_dqud2adhprei3jnj4zdro365pa	194	5	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	194	6	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	194	7	Levy	Levy	NNP
work_dqud2adhprei3jnj4zdro365pa	194	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	194	9	Phys	Phys	NNP
work_dqud2adhprei3jnj4zdro365pa	194	10	.	.	.
work_dqud2adhprei3jnj4zdro365pa	195	1	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	196	1	Lett	Lett	NNP
work_dqud2adhprei3jnj4zdro365pa	196	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	197	1	51	51	CD
work_dqud2adhprei3jnj4zdro365pa	197	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	197	3	1884	1884	CD
work_dqud2adhprei3jnj4zdro365pa	197	4	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	197	5	1983	1983	CD
work_dqud2adhprei3jnj4zdro365pa	197	6	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	197	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	198	1	32	32	CD
work_dqud2adhprei3jnj4zdro365pa	198	2	W.	W.	NNP
work_dqud2adhprei3jnj4zdro365pa	198	3	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	198	4	Aulbur	Aulbur	NNP
work_dqud2adhprei3jnj4zdro365pa	198	5	,	,	,
work_dqud2adhprei3jnj4zdro365pa	198	6	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	198	7	Jönsson	Jönsson	NNP
work_dqud2adhprei3jnj4zdro365pa	198	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	198	9	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	198	10	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	198	11	W.	W.	NNP
work_dqud2adhprei3jnj4zdro365pa	198	12	Wilkins	Wilkins	NNP
work_dqud2adhprei3jnj4zdro365pa	198	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	198	14	Solid	Solid	NNP
work_dqud2adhprei3jnj4zdro365pa	198	15	State	State	NNP
work_dqud2adhprei3jnj4zdro365pa	198	16	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	198	17	54	54	CD
work_dqud2adhprei3jnj4zdro365pa	198	18	,	,	,
work_dqud2adhprei3jnj4zdro365pa	198	19	1	1	CD
work_dqud2adhprei3jnj4zdro365pa	198	20	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	198	21	2000	2000	CD
work_dqud2adhprei3jnj4zdro365pa	198	22	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	198	23	.	.	.
work_dqud2adhprei3jnj4zdro365pa	199	1	33	33	CD
work_dqud2adhprei3jnj4zdro365pa	199	2	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	199	3	Heyd	Heyd	NNP
work_dqud2adhprei3jnj4zdro365pa	199	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	199	5	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	199	6	E.	E.	NNP
work_dqud2adhprei3jnj4zdro365pa	199	7	Scuseria	Scuseria	NNP
work_dqud2adhprei3jnj4zdro365pa	199	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	199	9	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	199	10	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	199	11	Ernzerhof	Ernzerhof	NNP
work_dqud2adhprei3jnj4zdro365pa	199	12	,	,	,
work_dqud2adhprei3jnj4zdro365pa	199	13	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	199	14	Journal	Journal	NNP
work_dqud2adhprei3jnj4zdro365pa	199	15	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	199	16	Chemical	Chemical	NNP
work_dqud2adhprei3jnj4zdro365pa	199	17	Physics	Physics	NNP
work_dqud2adhprei3jnj4zdro365pa	199	18	118	118	CD
work_dqud2adhprei3jnj4zdro365pa	199	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	199	20	8207	8207	CD
work_dqud2adhprei3jnj4zdro365pa	199	21	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	199	22	2003	2003	CD
work_dqud2adhprei3jnj4zdro365pa	199	23	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	199	24	.	.	.
work_dqud2adhprei3jnj4zdro365pa	200	1	34	34	CD
work_dqud2adhprei3jnj4zdro365pa	200	2	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	200	3	Freysoldt	Freysoldt	NNP
work_dqud2adhprei3jnj4zdro365pa	200	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	200	5	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	200	6	Grabowski	Grabowski	NNP
work_dqud2adhprei3jnj4zdro365pa	200	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	200	8	T.	T.	NNP
work_dqud2adhprei3jnj4zdro365pa	200	9	Hickel	Hickel	NNP
work_dqud2adhprei3jnj4zdro365pa	200	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	200	11	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	200	12	Neugebauer	Neugebauer	NNP
work_dqud2adhprei3jnj4zdro365pa	200	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	200	14	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	200	15	Kresse	Kresse	NNP
work_dqud2adhprei3jnj4zdro365pa	200	16	,	,	,
work_dqud2adhprei3jnj4zdro365pa	200	17	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	200	18	Janotti	Janotti	NNP
work_dqud2adhprei3jnj4zdro365pa	200	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	200	20	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	200	21	C.	C.	NNP
work_dqud2adhprei3jnj4zdro365pa	200	22	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	200	23	Van	Van	NNP
work_dqud2adhprei3jnj4zdro365pa	200	24	de	de	FW
work_dqud2adhprei3jnj4zdro365pa	200	25	Walle	Walle	NNP
work_dqud2adhprei3jnj4zdro365pa	200	26	,	,	,
work_dqud2adhprei3jnj4zdro365pa	200	27	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	201	1	Mod	Mod	NNP
work_dqud2adhprei3jnj4zdro365pa	201	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	202	1	Phys	phys	NN
work_dqud2adhprei3jnj4zdro365pa	202	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	203	1	86	86	CD
work_dqud2adhprei3jnj4zdro365pa	203	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	203	3	253	253	CD
work_dqud2adhprei3jnj4zdro365pa	203	4	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	203	5	2014	2014	CD
work_dqud2adhprei3jnj4zdro365pa	203	6	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	203	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	204	1	35	35	CD
work_dqud2adhprei3jnj4zdro365pa	204	2	H.-P.	H.-P.	NNP
work_dqud2adhprei3jnj4zdro365pa	204	3	Komsa	Komsa	NNP
work_dqud2adhprei3jnj4zdro365pa	204	4	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	204	5	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	204	6	Pasquarello	Pasquarello	NNP
work_dqud2adhprei3jnj4zdro365pa	204	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	204	8	Phys	Phys	NNP
work_dqud2adhprei3jnj4zdro365pa	204	9	.	.	.
work_dqud2adhprei3jnj4zdro365pa	205	1	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	206	1	Lett	Lett	NNP
work_dqud2adhprei3jnj4zdro365pa	206	2	.	.	.
work_dqud2adhprei3jnj4zdro365pa	207	1	110	110	CD
work_dqud2adhprei3jnj4zdro365pa	207	2	,	,	,
work_dqud2adhprei3jnj4zdro365pa	207	3	095505	095505	CD
work_dqud2adhprei3jnj4zdro365pa	207	4	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	207	5	2013	2013	CD
work_dqud2adhprei3jnj4zdro365pa	207	6	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	207	7	.	.	.
work_dqud2adhprei3jnj4zdro365pa	208	1	36	36	CD
work_dqud2adhprei3jnj4zdro365pa	208	2	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	208	3	Varghese	Varghese	NNP
work_dqud2adhprei3jnj4zdro365pa	208	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	208	5	P.	P.	NNP
work_dqud2adhprei3jnj4zdro365pa	208	6	Ghosh	Ghosh	NNP
work_dqud2adhprei3jnj4zdro365pa	208	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	208	8	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	208	9	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	208	10	Datta	Datta	NNP
work_dqud2adhprei3jnj4zdro365pa	208	11	,	,	,
work_dqud2adhprei3jnj4zdro365pa	208	12	The	the	DT
work_dqud2adhprei3jnj4zdro365pa	208	13	Journal	Journal	NNP
work_dqud2adhprei3jnj4zdro365pa	208	14	of	of	IN
work_dqud2adhprei3jnj4zdro365pa	208	15	Physical	Physical	NNP
work_dqud2adhprei3jnj4zdro365pa	208	16	Chemistry	Chemistry	NNP
work_dqud2adhprei3jnj4zdro365pa	208	17	C	C	NNP
work_dqud2adhprei3jnj4zdro365pa	208	18	118	118	CD
work_dqud2adhprei3jnj4zdro365pa	208	19	,	,	,
work_dqud2adhprei3jnj4zdro365pa	208	20	21604	21604	CD
work_dqud2adhprei3jnj4zdro365pa	208	21	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	208	22	2014	2014	CD
work_dqud2adhprei3jnj4zdro365pa	208	23	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	208	24	.	.	.
work_dqud2adhprei3jnj4zdro365pa	209	1	37	37	CD
work_dqud2adhprei3jnj4zdro365pa	209	2	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	209	3	Lany	Lany	NNP
work_dqud2adhprei3jnj4zdro365pa	209	4	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	209	5	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	209	6	Zunger	Zunger	NNP
work_dqud2adhprei3jnj4zdro365pa	209	7	,	,	,
work_dqud2adhprei3jnj4zdro365pa	209	8	Phys	Phys	NNP
work_dqud2adhprei3jnj4zdro365pa	209	9	.	.	.
work_dqud2adhprei3jnj4zdro365pa	210	1	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	211	1	B	B	NNP
work_dqud2adhprei3jnj4zdro365pa	211	2	78	78	CD
work_dqud2adhprei3jnj4zdro365pa	211	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	211	4	235104	235104	CD
work_dqud2adhprei3jnj4zdro365pa	211	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	211	6	2008	2008	CD
work_dqud2adhprei3jnj4zdro365pa	211	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	211	8	.	.	.
work_dqud2adhprei3jnj4zdro365pa	212	1	38	38	CD
work_dqud2adhprei3jnj4zdro365pa	212	2	P.	P.	NNP
work_dqud2adhprei3jnj4zdro365pa	212	3	Dunning	Dunning	NNP
work_dqud2adhprei3jnj4zdro365pa	212	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	212	5	High	High	NNP
work_dqud2adhprei3jnj4zdro365pa	212	6	Performance	Performance	NNP
work_dqud2adhprei3jnj4zdro365pa	212	7	Pigments	Pigments	NNP
work_dqud2adhprei3jnj4zdro365pa	212	8	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	212	9	Wiley	Wiley	NNP
work_dqud2adhprei3jnj4zdro365pa	212	10	-	-	HYPH
work_dqud2adhprei3jnj4zdro365pa	212	11	VCH	VCH	NNP
work_dqud2adhprei3jnj4zdro365pa	212	12	Verlag	Verlag	NNP
work_dqud2adhprei3jnj4zdro365pa	212	13	GmbH	GmbH	NNP
work_dqud2adhprei3jnj4zdro365pa	212	14	&	&	CC
work_dqud2adhprei3jnj4zdro365pa	212	15	Co.	Co.	NNP
work_dqud2adhprei3jnj4zdro365pa	212	16	KGaA	KGaA	NNP
work_dqud2adhprei3jnj4zdro365pa	212	17	,	,	,
work_dqud2adhprei3jnj4zdro365pa	212	18	2003	2003	CD
work_dqud2adhprei3jnj4zdro365pa	212	19	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	212	20	.	.	.
work_dqud2adhprei3jnj4zdro365pa	213	1	39	39	CD
work_dqud2adhprei3jnj4zdro365pa	213	2	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	213	3	Kobayashi	Kobayashi	NNP
work_dqud2adhprei3jnj4zdro365pa	213	4	,	,	,
work_dqud2adhprei3jnj4zdro365pa	213	5	O.	O.	NNP
work_dqud2adhprei3jnj4zdro365pa	213	6	F.	F.	NNP
work_dqud2adhprei3jnj4zdro365pa	213	7	Sankey	Sankey	NNP
work_dqud2adhprei3jnj4zdro365pa	213	8	,	,	,
work_dqud2adhprei3jnj4zdro365pa	213	9	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	213	10	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	213	11	D.	D.	NNP
work_dqud2adhprei3jnj4zdro365pa	213	12	Dow	Dow	NNP
work_dqud2adhprei3jnj4zdro365pa	213	13	,	,	,
work_dqud2adhprei3jnj4zdro365pa	213	14	Phys	Phys	NNP
work_dqud2adhprei3jnj4zdro365pa	213	15	.	.	.
work_dqud2adhprei3jnj4zdro365pa	214	1	Rev.	Rev.	NNP
work_dqud2adhprei3jnj4zdro365pa	215	1	B	B	NNP
work_dqud2adhprei3jnj4zdro365pa	215	2	28	28	CD
work_dqud2adhprei3jnj4zdro365pa	215	3	,	,	,
work_dqud2adhprei3jnj4zdro365pa	215	4	946	946	CD
work_dqud2adhprei3jnj4zdro365pa	215	5	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	215	6	1983	1983	CD
work_dqud2adhprei3jnj4zdro365pa	215	7	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	215	8	.	.	.
work_dqud2adhprei3jnj4zdro365pa	216	1	40	40	CD
work_dqud2adhprei3jnj4zdro365pa	216	2	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	3	D.	D.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	4	A.	A.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	5	Levin	Levin	NNP
work_dqud2adhprei3jnj4zdro365pa	216	6	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	7	K.	K.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	8	X.	X.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	9	Nguyen	Nguyen	NNP
work_dqud2adhprei3jnj4zdro365pa	216	10	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	11	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	12	E.	E.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	13	Holtz	Holtz	NNP
work_dqud2adhprei3jnj4zdro365pa	216	14	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	15	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	16	B.	B.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	17	Wiggins	Wiggins	NNP
work_dqud2adhprei3jnj4zdro365pa	216	18	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	19	M.	M.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	20	G.	G.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	21	Thomas	Thomas	NNP
work_dqud2adhprei3jnj4zdro365pa	216	22	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	23	E.	E.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	24	S.	S.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	25	Tveit	Tveit	NNP
work_dqud2adhprei3jnj4zdro365pa	216	26	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	27	J.	J.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	28	L.	L.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	29	Mass	Mass	NNP
work_dqud2adhprei3jnj4zdro365pa	216	30	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	31	R.	R.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	32	Opila	Opila	NNP
work_dqud2adhprei3jnj4zdro365pa	216	33	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	34	T.	T.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	35	Beebe	Beebe	NNP
work_dqud2adhprei3jnj4zdro365pa	216	36	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	37	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	216	38	D.	D.	NNP
work_dqud2adhprei3jnj4zdro365pa	216	39	A.	a.	NN
work_dqud2adhprei3jnj4zdro365pa	216	40	Muller	Muller	NNP
work_dqud2adhprei3jnj4zdro365pa	216	41	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	42	Microscopy	Microscopy	NNP
work_dqud2adhprei3jnj4zdro365pa	216	43	and	and	CC
work_dqud2adhprei3jnj4zdro365pa	216	44	Microanalysis	Microanalysis	NNP
work_dqud2adhprei3jnj4zdro365pa	216	45	22	22	CD
work_dqud2adhprei3jnj4zdro365pa	216	46	,	,	,
work_dqud2adhprei3jnj4zdro365pa	216	47	258	258	CD
work_dqud2adhprei3jnj4zdro365pa	216	48	(	(	-LRB-
work_dqud2adhprei3jnj4zdro365pa	216	49	2016	2016	CD
work_dqud2adhprei3jnj4zdro365pa	216	50	)	)	-RRB-
work_dqud2adhprei3jnj4zdro365pa	216	51	.	.	.
work_dqud2adhprei3jnj4zdro365pa	217	1	https://doi.org/10.1366/11-06230	https://doi.org/10.1366/11-06230	NNP
work_dqud2adhprei3jnj4zdro365pa	217	2	https://doi.org/10.1039/c3ay41585f	https://doi.org/10.1039/c3ay41585f	NNP
work_dqud2adhprei3jnj4zdro365pa	217	3	https://doi.org/10.1016/j.microc.2015.07.025	https://doi.org/10.1016/j.microc.2015.07.025	ADD
work_dqud2adhprei3jnj4zdro365pa	217	4	https://doi.org/10.1366/000370210791414443	https://doi.org/10.1366/000370210791414443	NNP
work_dqud2adhprei3jnj4zdro365pa	217	5	https://doi.org/10.1366/000370210791414443	https://doi.org/10.1366/000370210791414443	NNP
work_dqud2adhprei3jnj4zdro365pa	217	6	https://doi.org/10.1088/0953-8984/21/39/395502	https://doi.org/10.1088/0953-8984/21/39/395502	UH
work_dqud2adhprei3jnj4zdro365pa	217	7	https://doi.org/10.1103/physrevb.41.7892	https://doi.org/10.1103/physrevb.41.7892	NNP
work_dqud2adhprei3jnj4zdro365pa	217	8	https://doi.org/10.1103/physrevlett.77.3865	https://doi.org/10.1103/physrevlett.77.3865	NNP
work_dqud2adhprei3jnj4zdro365pa	217	9	https://doi.org/10.1016/j.microc.2015.12.005	https://doi.org/10.1016/j.microc.2015.12.005	FW
work_dqud2adhprei3jnj4zdro365pa	217	10	https://doi.org/10.1016/j.microc.2017.12.013	https://doi.org/10.1016/j.microc.2017.12.013	NNP
work_dqud2adhprei3jnj4zdro365pa	217	11	https://doi.org/10.1103/physrevb.91.245202	https://doi.org/10.1103/physrevb.91.245202	NNP
work_dqud2adhprei3jnj4zdro365pa	217	12	https://doi.org/10.1038/srep05158	https://doi.org/10.1038/srep05158	NNP
work_dqud2adhprei3jnj4zdro365pa	217	13	https://doi.org/10.1103/physrevlett.51.1884	https://doi.org/10.1103/physrevlett.51.1884	NNP
work_dqud2adhprei3jnj4zdro365pa	217	14	https://doi.org/10.1016/s0081-1947(08)60248-9	https://doi.org/10.1016/s0081-1947(08)60248-9	VBZ
work_dqud2adhprei3jnj4zdro365pa	217	15	https://doi.org/10.1063/1.1564060	https://doi.org/10.1063/1.1564060	NNP
work_dqud2adhprei3jnj4zdro365pa	217	16	https://doi.org/10.1103/revmodphys.86.253	https://doi.org/10.1103/revmodphys.86.253	NNP
work_dqud2adhprei3jnj4zdro365pa	217	17	https://doi.org/10.1103/physrevlett.110.095505	https://doi.org/10.1103/physrevlett.110.095505	VBZ
work_dqud2adhprei3jnj4zdro365pa	217	18	https://doi.org/10.1021/jp503954y	https://doi.org/10.1021/jp503954y	NNP
work_dqud2adhprei3jnj4zdro365pa	217	19	https://doi.org/10.1103/physrevb.28.946	https://doi.org/10.1103/physrevb.28.946	NN
work_dqud2adhprei3jnj4zdro365pa	217	20	https://doi.org/10.1017/s1431927616002142	https://doi.org/10.1017/s1431927616002142	NN