id	sid	tid	token	lemma	pos
work_hkae3g3zujezzbxxtnt2wuyp4i	1	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	2	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	3	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	1	5	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	1	6	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	1	7	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	1	8	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	9	long	long	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	10	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	1	11	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	12	short	short	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	13	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	14	it	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	1	15	COMMENTARY	COMMENTARY	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	16	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	17	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	18	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	19	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	1	20	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	1	21	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	1	22	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	1	23	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	24	long	long	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	25	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	1	26	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	27	short	short	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	28	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	29	it	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	1	30	Erte	Erte	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	1	31	Xia	Xia	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	1	32	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	1	33	Amish	Amish	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	1	34	J.	J.	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	1	35	Patela,1	Patela,1	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	1	36	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	37	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	38	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	39	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	1	40	which	which	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	41	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	42	used	use	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	43	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	1	44	describe	describe	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	1	45	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	46	aversion	aversion	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	47	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	48	oil	oil	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	49	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	50	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	51	or	or	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	1	52	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	53	affinity	affinity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	54	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	55	oily	oily	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	56	objects	object	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	1	57	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	58	one	one	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	1	59	another	another	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	60	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	61	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	62	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	1	63	plays	play	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	64	an	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	1	65	important	important	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	66	role	role	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	67	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	1	68	diverse	diverse	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	1	69	disciplines	discipline	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	1	70	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	1	71	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	1	72	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	1	73	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	2	1	For	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	2	example	example	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	3	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	2	4	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	5	segregating	segregate	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	2	6	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	7	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	2	8	oil	oil	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	9	–	–	:
work_hkae3g3zujezzbxxtnt2wuyp4i	2	10	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	11	interface	interface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	2	13	amphiphilic	amphiphilic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	2	14	molecules	molecule	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	2	15	that	that	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	2	16	possess	possess	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	2	17	both	both	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	2	18	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	2	19	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	2	20	hydrophilic	hydrophilic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	2	21	groups	group	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	2	22	can	can	MD
work_hkae3g3zujezzbxxtnt2wuyp4i	2	23	mitigate	mitigate	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	2	24	unfavorable	unfavorable	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	2	25	oil	oil	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	26	–	–	:
work_hkae3g3zujezzbxxtnt2wuyp4i	2	27	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	28	interactions	interaction	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	2	29	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	2	30	thereby	thereby	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	2	31	stabilizing	stabilize	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	2	32	emulsions	emulsion	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	2	33	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	2	34	facilitating	facilitate	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	2	35	detergency	detergency	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	2	36	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	3	1	Be-	be-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	3	2	cause	cause	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	3	3	roughly	roughly	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	3	4	half	half	PDT
work_hkae3g3zujezzbxxtnt2wuyp4i	3	5	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	3	6	amino	amino	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	3	7	acids	acid	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	3	8	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	3	9	which	which	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	3	10	form	form	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	3	11	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	3	12	basic	basic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	3	13	building	building	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	3	14	blocks	block	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	3	15	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	3	16	proteins	protein	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	3	17	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	3	18	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	3	19	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	3	20	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	3	21	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	3	22	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	3	23	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	3	24	also	also	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	3	25	plays	play	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	3	26	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	3	27	central	central	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	3	28	role	role	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	3	29	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	3	30	bio-	bio-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	3	31	physics	physics	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	3	32	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	4	1	Owing	owe	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	4	2	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	4	3	its	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	4	4	ubiquity	ubiquity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	4	5	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	4	6	its	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	4	7	multifaceted	multifacete	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	4	8	nature	nature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	4	9	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	4	10	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	4	11	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	4	12	3	3	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	4	13	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	4	14	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	4	15	being	be	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	4	16	able	able	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	4	17	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	4	18	accurately	accurately	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	4	19	model	model	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	4	20	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	4	21	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	4	22	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	4	23	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	4	24	both	both	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	4	25	important	important	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	4	26	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	4	27	challenging	challenging	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	4	28	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	5	1	In	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	5	2	PNAS	PNAS	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	5	3	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	5	4	Vaikuntanathan	Vaikuntanathan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	5	5	et	et	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	5	6	al	al	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	5	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	6	1	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	6	2	4	4	LS
work_hkae3g3zujezzbxxtnt2wuyp4i	6	3	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	6	4	provide	provide	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	6	5	important	important	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	6	6	insights	insight	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	6	7	into	into	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	6	8	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	6	9	essential	essential	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	6	10	ingredients	ingredient	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	6	11	required	require	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	6	12	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	6	13	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	6	14	minimal	minimal	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	6	15	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	6	16	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	6	17	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	6	18	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	6	19	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	6	20	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	7	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	7	2	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	7	3	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	7	4	characteristically	characteristically	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	7	5	mani-	mani-	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	7	6	fests	fest	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	7	7	itself	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	7	8	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	7	9	very	very	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	7	10	different	different	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	7	11	ways	way	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	7	12	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	7	13	microscopic	microscopic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	7	14	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	7	15	macroscopic	macroscopic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	7	16	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	7	17	scales	scale	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	7	18	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	7	19	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	7	20	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	7	21	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	8	1	Macroscopically	macroscopically	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	8	2	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	8	3	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	8	4	aversion	aversion	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	5	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	6	oil	oil	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	7	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	8	8	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	9	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	10	one	one	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	8	11	another	another	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	8	12	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	8	13	captured	capture	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	14	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	15	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	8	16	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	8	17	surface	surface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	18	tension	tension	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	19	associated	associate	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	20	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	21	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	8	22	oil	oil	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	23	–	–	:
work_hkae3g3zujezzbxxtnt2wuyp4i	8	24	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	25	interface	interface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	8	26	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	9	1	At	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	2	this	this	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	9	3	scale	scale	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	9	5	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	9	6	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	9	7	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	8	drives	drive	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	9	9	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	9	10	minimization	minimization	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	11	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	12	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	9	13	unfavorable	unfavorable	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	9	14	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	9	15	area	area	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	16	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	9	17	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	18	example	example	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	19	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	9	20	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	21	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	9	22	coalescence	coalescence	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	23	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	24	oil	oil	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	25	droplets	droplet	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	9	26	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	27	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	9	28	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	9	29	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	10	1	Although	although	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	2	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	10	3	macroscopic	macroscopic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	10	4	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	5	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	6	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	10	7	governed	govern	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	8	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	9	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	10	10	relatively	relatively	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	10	11	straightforward	straightforward	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	10	12	physics	physic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	10	13	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	14	interfaces	interface	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	10	15	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	10	16	it	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	10	17	can	can	MD
work_hkae3g3zujezzbxxtnt2wuyp4i	10	18	nevertheless	nevertheless	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	10	19	lead	lead	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	10	20	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	21	complex	complex	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	10	22	phe-	phe-	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	10	23	nomena	nomena	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	10	24	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	10	25	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	10	26	as	as	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	27	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	10	28	nanobubble	nanobubble	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	10	29	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	10	30	mediated	mediate	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	31	long-	long-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	32	ranged	ranged	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	10	33	forces	force	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	10	34	between	between	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	35	extended	extended	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	10	36	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	37	sur-	sur-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	38	faces	face	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	10	39	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	10	40	5	5	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	10	41	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	10	42	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	10	43	or	or	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	10	44	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	10	45	assembly	assembly	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	46	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	47	anisotropic	anisotropic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	10	48	particles	particle	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	10	49	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	10	50	curved	curved	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	10	51	interfaces	interface	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	10	52	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	10	53	6	6	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	10	54	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	10	55	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	11	1	Interestingly	interestingly	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	11	2	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	11	3	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	11	4	thermody-	thermody-	XX
work_hkae3g3zujezzbxxtnt2wuyp4i	11	5	namic	namic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	11	6	driving	driving	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	11	7	force	force	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	11	8	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	11	9	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	11	10	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	11	11	assembly	assembly	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	11	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	11	13	which	which	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	11	14	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	11	15	dictated	dictate	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	11	16	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	11	17	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	11	18	tension	tension	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	11	19	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	11	20	decreases	decrease	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	11	21	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	11	22	increasing	increase	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	11	23	temperature	temperature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	11	24	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	12	1	In	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	12	2	contrast	contrast	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	12	3	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	12	4	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	12	5	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	12	6	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	12	7	scale	scale	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	12	8	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	12	9	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	12	10	driving	drive	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	12	11	force	force	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	12	12	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	12	13	hydrophobic	hydrophobic	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	12	14	assembly	assembly	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	12	15	famously	famously	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	12	16	increases	increase	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	12	17	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	12	18	increasing	increase	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	12	19	temperature	temperature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	12	20	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	12	21	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	12	22	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	12	23	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	13	1	In	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	13	2	fact	fact	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	13	3	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	13	4	whenever	whenever	WRB
work_hkae3g3zujezzbxxtnt2wuyp4i	13	5	biomo-	biomo-	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	13	6	lecular	lecular	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	13	7	assembly	assembly	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	13	8	occurs	occur	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	13	9	upon	upon	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	13	10	increasing	increase	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	13	11	temperature	temperature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	13	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	13	13	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	13	14	seeming	seeming	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	13	15	disregard	disregard	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	13	16	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	13	17	entropic	entropic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	13	18	considerations	consideration	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	13	19	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	13	20	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	13	21	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	13	22	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	13	23	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	13	24	often	often	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	13	25	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	13	26	first	first	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	13	27	suspect	suspect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	13	28	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	14	1	A	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	14	2	classic	classic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	14	3	example	example	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	14	4	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	14	5	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	14	6	cold	cold	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	14	7	denaturation	denaturation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	14	8	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	14	9	proteins	protein	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	14	10	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	15	1	Whereas	whereas	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	2	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	15	3	denaturation	denaturation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	4	or	or	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	15	5	unfolding	unfolding	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	6	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	7	proteins	protein	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	15	8	upon	upon	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	9	heating	heating	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	10	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	15	11	common	common	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	15	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	15	13	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	15	14	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	15	15	ascribed	ascribe	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	16	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	17	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	15	18	configura-	configura-	XX
work_hkae3g3zujezzbxxtnt2wuyp4i	15	19	tional	tional	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	15	20	entropy	entropy	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	15	21	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	22	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	15	23	macromolecule	macromolecule	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	24	prevailing	prevail	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	15	25	over	over	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	26	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	15	27	favorable	favorable	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	15	28	energy	energy	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	29	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	30	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	15	31	folded	fold	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	32	state	state	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	33	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	15	34	certain	certain	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	15	35	pro-	pro-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	36	teins	tein	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	15	37	also	also	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	15	38	denature	denature	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	15	39	upon	upon	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	40	cooling	cooling	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	15	41	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	16	1	Such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	16	2	cold	cold	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	16	3	denaturation	denaturation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	4	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	16	5	explained	explain	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	6	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	7	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	16	8	fact	fact	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	9	that	that	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	10	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	16	11	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	16	12	hydropho-	hydropho-	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	16	13	bic	bic	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	16	14	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	15	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	16	16	which	which	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	16	17	stabilizes	stabilize	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	16	18	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	16	19	folded	fold	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	20	state	state	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	21	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	22	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	16	23	pro-	pro-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	24	tein	tein	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	25	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	16	26	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	16	27	weakened	weaken	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	28	upon	upon	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	29	cooling	cooling	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	30	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	16	31	causing	cause	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	16	32	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	16	33	protein	protein	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	16	34	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	16	35	unravel	unravel	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	16	36	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	16	37	7	7	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	16	38	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	16	39	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	17	1	To	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	17	2	understand	understand	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	17	3	these	these	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	17	4	contrasting	contrast	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	17	5	manifestations	manifestation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	17	6	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	17	7	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	17	8	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	17	9	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	17	10	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	17	11	it	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	17	12	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	17	13	instructive	instructive	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	17	14	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	17	15	consider	consider	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	17	16	how	how	WRB
work_hkae3g3zujezzbxxtnt2wuyp4i	17	17	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	17	18	structure	structure	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	17	19	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	17	20	perturbed	perturb	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	17	21	near	near	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	17	22	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	17	23	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	17	24	molecu-	molecu-	FW
work_hkae3g3zujezzbxxtnt2wuyp4i	17	25	lar	lar	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	17	26	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	17	27	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	17	28	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	17	29	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	17	30	macroscopic	macroscopic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	17	31	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	17	32	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	17	33	solutes	solute	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	17	34	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	18	1	Near	near	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	2	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	18	3	macroscopic	macroscopic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	18	4	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	5	object	object	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	6	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	18	7	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	18	8	as	as	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	9	an	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	18	10	oil	oil	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	11	droplet	droplet	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	18	13	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	18	14	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	15	molecules	molecule	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	18	16	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	18	17	unable	unable	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	18	18	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	18	19	participate	participate	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	18	20	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	21	four	four	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	18	22	hydrogen	hydrogen	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	23	bonds	bond	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	18	24	like	like	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	18	25	their	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	18	26	bulk	bulk	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	18	27	counterparts	counterpart	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	18	28	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	18	29	8)	8)	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	18	30	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	19	1	This	this	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	19	2	energetically	energetically	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	19	3	unfavorable	unfavorable	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	19	4	sce-	sce-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	5	nario	nario	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	6	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	19	7	responsible	responsible	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	19	8	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	9	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	19	10	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	19	11	oil	oil	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	12	–	–	:
work_hkae3g3zujezzbxxtnt2wuyp4i	19	13	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	14	surface	surface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	15	ten-	ten-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	16	sion	sion	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	17	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	19	18	drives	drive	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	19	19	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	19	20	minimization	minimization	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	21	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	22	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	19	23	area	area	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	19	24	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	20	1	In	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	2	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	20	3	vicinity	vicinity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	4	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	5	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	20	6	hydrophobes	hydrophobe	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	20	7	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	20	8	as	as	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	9	meth-	meth-	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	20	10	ane	ane	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	20	11	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	20	12	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	20	13	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	14	waters	water	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	20	15	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	20	16	able	able	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	20	17	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	20	18	maintain	maintain	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	20	19	all	all	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	20	20	their	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	20	21	hydrogen	hydrogen	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	22	bonds	bond	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	20	23	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	20	24	but	but	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	20	25	accommodating	accommodate	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	20	26	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	20	27	hydro-	hydro-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	28	phobe	phobe	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	29	severely	severely	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	20	30	constrains	constrain	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	20	31	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	20	32	hydrogen	hydrogen	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	33	bonding	bonding	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	34	net-	net-	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	35	work	work	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	36	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	37	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	20	38	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	20	39	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	20	40	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	20	41	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	21	1	This	this	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	21	2	strain	strain	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	3	on	on	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	4	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	21	5	hydrogen	hydrogen	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	6	bonding	bonding	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	7	network	network	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	8	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	21	9	reflected	reflect	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	10	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	11	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	21	12	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	21	13	negative	negative	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	21	14	entropy	entropy	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	15	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	16	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	17	;	;	:
work_hkae3g3zujezzbxxtnt2wuyp4i	21	18	it	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	21	19	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	21	20	this	this	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	21	21	entropic	entropic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	21	22	penalty	penalty	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	23	that	that	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	21	24	causes	cause	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	21	25	molec-	molec-	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	21	26	ular	ular	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	21	27	hydrophobes	hydrophobe	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	21	28	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	21	29	assemble	assemble	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	21	30	more	more	RBR
work_hkae3g3zujezzbxxtnt2wuyp4i	21	31	strongly	strongly	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	21	32	as	as	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	33	tem-	tem-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	34	perature	perature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	35	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	21	36	increased	increase	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	21	37	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	22	1	Thus	thus	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	22	2	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	22	3	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	22	4	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	22	5	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	22	6	assembly	assembly	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	22	7	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	22	8	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	22	9	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	22	10	level	level	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	22	11	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	22	12	not	not	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	22	13	governed	govern	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	22	14	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	22	15	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	22	16	physics	physics	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	22	17	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	22	18	but	but	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	22	19	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	22	20	fundamentally	fundamentally	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	22	21	different	different	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	22	22	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	23	1	Given	give	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	2	these	these	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	23	3	differences	difference	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	23	4	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	5	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	6	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	7	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	8	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	23	9	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	23	10	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	23	11	macroscopic	macroscopic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	23	12	limits	limit	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	23	13	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	23	14	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	15	what	what	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	23	16	size	size	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	17	do	do	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	23	18	we	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	23	19	cross	cross	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	23	20	over	over	RP
work_hkae3g3zujezzbxxtnt2wuyp4i	23	21	from	from	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	22	one	one	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	23	23	regime	regime	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	24	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	23	25	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	23	26	other	other	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	23	27	?	?	.
work_hkae3g3zujezzbxxtnt2wuyp4i	24	1	Theory	theory	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	24	2	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	24	3	simulation	simulation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	24	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	24	5	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	24	6	experiment	experiment	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	24	7	all	all	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	24	8	agree	agree	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	24	9	that	that	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	24	10	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	24	11	cross	cross	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	24	12	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	24	13	over	over	RP
work_hkae3g3zujezzbxxtnt2wuyp4i	24	14	occurs	occur	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	24	15	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	24	16	solutes	solute	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	24	17	that	that	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	24	18	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	24	19	about	about	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	24	20	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	24	21	nm	nm	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	24	22	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	24	23	size	size	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	24	24	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	24	25	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	24	26	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	24	27	9–13	9–13	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	24	28	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	24	29	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	25	1	This	this	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	25	2	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	3	scale	scale	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	4	emerges	emerge	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	25	5	from	from	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	6	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	25	7	prod-	prod-	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	25	8	uct	uct	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	9	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	10	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	25	11	surface	surface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	12	tension	tension	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	13	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	14	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	15	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	25	16	its	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	25	17	isothermal	isothermal	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	25	18	compressibility	compressibility	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	19	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	25	20	properties	property	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	25	21	that	that	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	25	22	respectively	respectively	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	25	23	influence	influence	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	25	24	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	25	25	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	26	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	25	27	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	25	28	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	25	29	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	25	30	solutes	solute	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	25	31	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	25	32	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	25	33	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	25	34	10	10	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	25	35	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	25	36	12	12	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	25	37	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	25	38	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	26	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	26	2	1-nm	1-nm	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	26	3	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	4	scale	scale	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	5	also	also	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	26	6	plays	play	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	26	7	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	26	8	key	key	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	26	9	role	role	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	10	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	11	numerous	numerous	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	26	12	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	26	13	assemblies	assembly	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	26	14	;	;	:
work_hkae3g3zujezzbxxtnt2wuyp4i	26	15	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	16	example	example	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	17	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	26	18	most	most	JJS
work_hkae3g3zujezzbxxtnt2wuyp4i	26	19	amino	amino	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	26	20	acid	acid	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	21	side	side	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	22	chain	chain	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	23	residues	residue	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	26	24	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	26	25	smaller	small	JJR
work_hkae3g3zujezzbxxtnt2wuyp4i	26	26	than	than	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	27	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	26	28	nm	nm	UH
work_hkae3g3zujezzbxxtnt2wuyp4i	26	29	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	26	30	but	but	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	26	31	folded	fold	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	32	proteins	protein	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	26	33	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	26	34	larger	large	JJR
work_hkae3g3zujezzbxxtnt2wuyp4i	26	35	than	than	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	36	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	26	37	nm	nm	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	26	38	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	27	1	Being	be	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	27	2	able	able	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	27	3	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	27	4	quantita-	quantita-	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	27	5	tively	tively	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	27	6	capture	capture	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	27	7	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	27	8	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	27	9	scale	scale	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	27	10	cross	cross	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	27	11	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	27	12	over	over	RP
work_hkae3g3zujezzbxxtnt2wuyp4i	27	13	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	27	14	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	27	15	aDepartment	aDepartment	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	27	16	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	27	17	Chemical	Chemical	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	27	18	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	27	19	Biomolecular	Biomolecular	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	27	20	Engineering	Engineering	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	27	21	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	27	22	University	University	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	27	23	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	27	24	Pennsylvania	Pennsylvania	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	27	25	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	27	26	Philadelphia	Philadelphia	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	27	27	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	27	28	PA	PA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	27	29	19104	19104	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	27	30	Author	author	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	27	31	contributions	contribution	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	27	32	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	27	33	E.X.	E.X.	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	28	1	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	28	2	A.J.P.	A.J.P.	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	29	1	wrote	write	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	29	2	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	29	3	paper	paper	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	29	4	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	30	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	30	2	authors	author	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	30	3	declare	declare	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	30	4	no	no	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	30	5	conflict	conflict	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	30	6	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	30	7	interest	interest	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	30	8	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	31	1	See	see	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	31	2	companion	companion	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	31	3	article	article	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	31	4	on	on	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	31	5	page	page	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	31	6	E2224	e2224	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	31	7	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	31	8	issue	issue	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	31	9	16	16	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	31	10	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	31	11	volume	volume	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	31	12	113	113	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	31	13	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	32	1	1To	1to	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	32	2	whom	whom	WP
work_hkae3g3zujezzbxxtnt2wuyp4i	32	3	correspondence	correspondence	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	32	4	should	should	MD
work_hkae3g3zujezzbxxtnt2wuyp4i	32	5	be	be	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	32	6	addressed	address	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	32	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	33	1	Email	email	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	33	2	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	33	3	amish.patel@seas.upenn.edu	amish.patel@seas.upenn.edu	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	33	4	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	34	1	www.pnas.org/cgi/doi/10.1073/pnas.1603014113	www.pnas.org/cgi/doi/10.1073/pnas.1603014113	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	34	2	PNAS	PNAS	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	34	3	|	|	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	34	4	April	April	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	34	5	26	26	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	34	6	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	34	7	2016	2016	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	34	8	|	|	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	34	9	vol	vol	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	34	10	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	35	1	113	113	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	35	2	|	|	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	35	3	no	no	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	35	4	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	36	1	17	17	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	36	2	|	|	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	36	3	4549–4551	4549–4551	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	36	4	C	c	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	5	O	o	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	6	M	m	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	7	M	m	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	8	E	e	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	9	N	n	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	10	T	t	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	11	A	a	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	12	R	r	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	13	Y	y	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	14	D	d	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	15	o	o	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	16	w	w	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	17	n	n	XX
work_hkae3g3zujezzbxxtnt2wuyp4i	36	18	lo	lo	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	19	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	36	20	d	d	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	21	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	22	d	d	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	23	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	36	24	t	t	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	25	C	c	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	26	a	a	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	27	rn	rn	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	28	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	29	g	g	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	30	ie	ie	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	31	M	M	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	32	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	33	llo	llo	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	34	n	n	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	35	U	u	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	36	n	n	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	36	37	iv	iv	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	38	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	39	rs	rs	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	40	ity	ity	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	41	o	o	XX
work_hkae3g3zujezzbxxtnt2wuyp4i	36	42	n	n	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	36	43	A	A	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	44	p	p	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	45	ri	ri	FW
work_hkae3g3zujezzbxxtnt2wuyp4i	36	46	l	l	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	47	5	5	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	36	48	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	36	49	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	36	50	0	0	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	36	51	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	36	52	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	36	53	http://crossmark.crossref.org/dialog/?doi=10.1073/pnas.1603014113&domain=pdf	http://crossmark.crossref.org/dialog/?doi=10.1073/pnas.1603014113&domain=pdf	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	54	mailto:amish.patel@seas.upenn.edu	mailto:amish.patel@seas.upenn.edu	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	55	www.pnas.org/cgi/doi/10.1073/pnas.1603014113	www.pnas.org/cgi/doi/10.1073/pnas.1603014113	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	36	56	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	57	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	36	58	thus	thus	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	36	59	critical	critical	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	36	60	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	61	understanding	understand	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	36	62	biophysical	biophysical	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	36	63	phenom-	phenom-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	64	ena	ena	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	36	65	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	36	66	as	as	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	67	protein	protein	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	68	folding	folding	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	69	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	36	70	aggregation	aggregation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	71	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	36	72	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	36	73	must	must	MD
work_hkae3g3zujezzbxxtnt2wuyp4i	36	74	be	be	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	36	75	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	36	76	central	central	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	36	77	requirement	requirement	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	78	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	79	any	any	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	36	80	comprehensive	comprehensive	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	36	81	theory	theory	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	82	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	83	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	36	84	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	36	85	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	36	86	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	37	1	In	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	37	2	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	37	3	seminal	seminal	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	37	4	contribution	contribution	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	37	5	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	37	6	Lum	Lum	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	37	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	37	8	Chandler	Chandler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	37	9	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	37	10	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	37	11	Weeks	Weeks	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	37	12	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	37	13	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	37	14	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	37	15	introduced	introduce	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	37	16	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	37	17	key	key	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	37	18	theoretical	theoretical	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	37	19	principles	principle	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	37	20	necessary	necessary	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	37	21	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	37	22	reconciling	reconcile	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	37	23	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	37	24	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	37	25	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	37	26	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	37	27	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	37	28	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	37	29	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	37	30	scales	scale	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	37	31	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	37	32	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	37	33	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	37	34	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	38	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	38	2	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	38	3	theory	theory	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	4	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	5	hydrophobicity	hydrophobicity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	6	prescribed	prescribe	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	7	decomposing	decompose	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	38	8	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	38	9	spa-	spa-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	10	tial	tial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	38	11	variations	variation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	38	12	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	13	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	14	density	density	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	15	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	38	16	which	which	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	38	17	arise	arise	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	38	18	from	from	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	19	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	38	20	presence	presence	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	21	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	22	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	38	23	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	38	24	solute	solute	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	25	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	38	26	into	into	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	38	27	two	two	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	38	28	separate	separate	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	38	29	components	component	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	38	30	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	39	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	39	2	first	first	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	39	3	com-	com-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	4	ponent	ponent	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	5	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	39	6	ρlðrÞ	ρlðrÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	39	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	39	8	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	39	9	governed	govern	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	10	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	11	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	39	12	physics	physics	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	13	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	39	14	displays	display	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	39	15	only	only	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	39	16	gentle	gentle	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	39	17	variations	variation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	39	18	over	over	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	19	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	39	20	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	21	scales	scale	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	39	22	;	;	:
work_hkae3g3zujezzbxxtnt2wuyp4i	39	23	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	39	24	used	use	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	39	25	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	39	26	Landau	Landau	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	39	27	–	–	:
work_hkae3g3zujezzbxxtnt2wuyp4i	39	28	Ginzburg	Ginzburg	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	39	29	density	density	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	30	functional	functional	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	39	31	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	39	32	describe	describe	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	39	33	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	39	34	free	free	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	39	35	energetics	energetic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	39	36	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	37	this	this	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	39	38	component	component	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	39	39	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	40	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	40	2	second	second	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	40	3	component	component	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	40	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	40	5	ρsðrÞ	ρsðrÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	40	6	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	40	7	incorporates	incorporate	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	40	8	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	40	9	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	40	10	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	40	11	amplitude	amplitude	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	40	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	40	13	short	short	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	40	14	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	40	15	wavelength	wavelength	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	40	16	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	40	17	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	40	18	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	40	19	density	density	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	40	20	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	41	1	Importantly	importantly	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	41	2	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	41	3	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	41	4	statistics	statistic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	41	5	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	41	6	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	41	7	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	41	8	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	41	9	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	41	10	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	41	11	density	density	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	41	12	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	41	13	Gaussian	gaussian	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	41	14	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	41	15	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	41	16	fact	fact	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	41	17	that	that	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	41	18	underpins	underpin	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	41	19	liquid	liquid	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	41	20	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	41	21	state	state	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	41	22	theories	theory	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	41	23	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	41	24	14	14	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	41	25	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	41	26	15	15	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	41	27	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	41	28	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	41	29	has	have	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	41	30	been	be	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	41	31	confirmed	confirm	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	41	32	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	41	33	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	41	34	simulations	simulation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	41	35	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	41	36	16	16	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	41	37	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	41	38	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	42	1	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	42	2	theory	theory	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	42	3	leverages	leverage	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	42	4	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	42	5	Gaussian	gaussian	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	42	6	statistics	statistic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	42	7	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	42	8	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	42	9	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	42	10	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	42	11	scale	scale	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	42	12	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	42	13	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	42	14	integrate	integrate	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	42	15	out	out	RP
work_hkae3g3zujezzbxxtnt2wuyp4i	42	16	ρsðrÞ	ρsðrÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	42	17	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	42	18	thereby	thereby	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	42	19	providing	provide	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	42	20	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	42	21	renormalized	renormalized	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	42	22	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	42	23	coarse	coarse	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	42	24	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	42	25	grained	grain	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	42	26	description	description	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	42	27	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	42	28	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	42	29	free	free	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	42	30	ener-	ener-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	42	31	getics	getic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	42	32	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	42	33	ρlðrÞ.	ρlðrÞ.	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	43	1	In	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	2	particular	particular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	43	3	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	43	4	ρlðrÞ	ρlðrÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	43	5	remains	remain	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	43	6	close	close	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	43	7	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	8	its	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	43	9	bulk	bulk	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	43	10	liquid	liquid	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	43	11	value	value	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	43	13	ρbulk	ρbulk	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	43	14	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	43	15	within	within	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	16	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	43	17	near	near	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	18	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	43	19	solutes	solute	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	43	20	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	43	21	because	because	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	22	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	43	23	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	43	24	ρsðrÞ	ρsðrÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	43	25	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	43	26	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	43	27	sufficient	sufficient	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	43	28	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	43	29	vacate	vacate	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	43	30	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	43	31	region	region	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	32	occupied	occupy	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	33	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	34	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	43	35	solute	solute	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	43	36	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	44	1	In	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	2	contrast	contrast	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	3	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	44	4	vacating	vacate	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	44	5	waters	water	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	44	6	from	from	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	7	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	44	8	region	region	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	9	larger	large	JJR
work_hkae3g3zujezzbxxtnt2wuyp4i	44	10	than	than	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	11	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	44	12	nm	nm	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	44	13	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	44	14	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	15	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	44	16	solute	solute	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	17	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	44	18	occupy	occupy	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	44	19	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	44	20	requires	require	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	44	21	nucleation	nucleation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	22	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	23	an	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	44	24	interface	interface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	25	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	44	26	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	27	ρlðrÞ	ρlðrÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	44	28	vanishing	vanish	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	44	29	within	within	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	30	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	44	31	solute	solute	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	44	32	region	region	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	33	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	44	34	approaching	approach	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	44	35	ρbulk	ρbulk	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	44	36	outside	outside	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	44	37	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	45	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	45	2	original	original	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	45	3	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	45	4	paper	paper	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	45	5	used	use	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	45	6	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	45	7	variational	variational	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	45	8	formalism	formalism	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	45	9	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	45	10	evaluate	evaluate	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	45	11	ρlðrÞ	ρlðrÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	45	12	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	45	13	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	45	14	mean	mean	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	45	15	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	45	16	field	field	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	45	17	limit	limit	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	45	18	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	45	19	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	45	20	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	45	21	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	46	1	To	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	46	2	incorporate	incorporate	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	46	3	fluctua-	fluctua-	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	46	4	tions	tion	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	46	5	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	46	6	ρlðrÞ	ρlðrÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	46	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	46	8	subsequent	subsequent	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	46	9	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	46	10	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	46	11	inspired	inspire	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	46	12	treatments	treatment	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	46	13	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	46	14	17	17	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	46	15	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	46	16	18	18	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	46	17	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	46	18	used	use	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	46	19	simple	simple	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	46	20	models	model	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	46	21	capable	capable	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	46	22	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	46	23	capturing	capture	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	46	24	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	46	25	physics	physics	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	46	26	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	46	27	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	46	28	as	as	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	46	29	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	46	30	lattice	lattice	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	46	31	gas	gas	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	46	32	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	46	33	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	47	1	In	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	2	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	47	3	lattice	lattice	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	4	gas	gas	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	5	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	6	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	47	7	variations	variation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	47	8	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	9	density	density	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	10	between	between	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	11	adjacent	adjacent	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	47	12	lattice	lattice	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	13	sites	site	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	47	14	carry	carry	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	47	15	an	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	47	16	energetic	energetic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	47	17	penalty	penalty	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	18	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	47	19	«	«	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	47	20	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	47	21	which	which	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	47	22	along	along	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	47	23	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	24	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	47	25	lattice	lattice	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	26	spacing	spacing	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	27	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	47	28	δ	δ	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	29	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	47	30	determines	determine	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	47	31	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	47	32	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	47	33	tension	tension	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	47	34	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	47	35	γ	γ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	47	36	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	48	1	However	however	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	48	2	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	48	3	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	48	4	formation	formation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	5	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	6	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	48	7	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	8	–	–	:
work_hkae3g3zujezzbxxtnt2wuyp4i	48	9	vapor	vapor	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	10	interface	interface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	11	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	12	ambient	ambient	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	48	13	conditions	condition	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	48	14	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	48	15	associated	associate	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	16	not	not	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	48	17	only	only	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	48	18	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	19	an	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	48	20	energetic	energetic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	48	21	penalty	penalty	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	22	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	48	23	but	but	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	48	24	also	also	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	48	25	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	26	entropically	entropically	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	48	27	favorable	favorable	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	48	28	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	48	29	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	48	30	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	48	31	Fig	fig	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	48	32	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	49	1	1A	1a	LS
work_hkae3g3zujezzbxxtnt2wuyp4i	49	2	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	49	3	;	;	:
work_hkae3g3zujezzbxxtnt2wuyp4i	49	4	indeed	indeed	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	49	5	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	49	6	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	49	7	statistics	statistic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	49	8	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	49	9	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	49	10	long	long	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	49	11	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	49	12	wavelength	wavelength	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	49	13	capillary	capillary	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	49	14	wave	wave	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	49	15	fluc-	fluc-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	49	16	tuations	tuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	49	17	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	49	18	well	well	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	49	19	understood	understand	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	49	20	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	49	21	19	19	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	49	22	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	49	23	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	50	1	Vaikuntanathan	Vaikuntanathan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	50	2	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	50	3	Geissler	Geissler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	50	4	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	50	5	20	20	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	50	6	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	50	7	recognized	recognize	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	50	8	that	that	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	50	9	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	50	10	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	50	11	lattice	lattice	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	50	12	gas	gas	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	50	13	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	50	14	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	50	15	appropriately	appropriately	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	50	16	capture	capture	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	50	17	capillary	capillary	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	50	18	wave	wave	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	50	19	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	50	20	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	50	21	only	only	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	50	22	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	50	23	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	50	24	range	range	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	50	25	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	50	26	«	«	``
work_hkae3g3zujezzbxxtnt2wuyp4i	50	27	values	value	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	50	28	could	could	MD
work_hkae3g3zujezzbxxtnt2wuyp4i	50	29	be	be	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	50	30	used	use	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	50	31	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	51	1	If	if	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	51	2	«	«	``
work_hkae3g3zujezzbxxtnt2wuyp4i	51	3	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	51	4	too	too	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	51	5	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	51	6	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	51	7	we	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	51	8	approach	approach	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	51	9	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	51	10	critical	critical	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	51	11	point	point	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	51	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	51	13	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	51	14	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	51	15	bulk	bulk	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	51	16	liquid	liquid	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	51	17	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	51	18	vapor	vapor	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	51	19	phases	phase	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	51	20	display	display	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	51	21	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	51	22	density	density	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	51	23	fluctua-	fluctua-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	51	24	tions	tion	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	51	25	;	;	:
work_hkae3g3zujezzbxxtnt2wuyp4i	51	26	however	however	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	51	27	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	51	28	if	if	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	51	29	«	«	``
work_hkae3g3zujezzbxxtnt2wuyp4i	51	30	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	51	31	too	too	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	51	32	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	51	33	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	51	34	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	51	35	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	51	36	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	51	37	sup-	sup-	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	51	38	pressed	press	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	51	39	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	52	1	With	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	2	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	52	3	optimally	optimally	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	52	4	parameterized	parameterize	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	5	lattice	lattice	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	6	gas	gas	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	7	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	8	ρlðrÞ	ρlðrÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	52	9	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	52	10	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	52	11	authors	author	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	52	12	’	’	POS
work_hkae3g3zujezzbxxtnt2wuyp4i	52	13	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	52	14	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	52	15	inspired	inspire	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	16	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	17	was	be	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	52	18	able	able	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	52	19	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	52	20	quantitatively	quantitatively	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	52	21	capture	capture	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	52	22	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	52	23	without	without	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	24	any	any	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	52	25	adjustable	adjustable	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	52	26	parameters	parameter	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	52	27	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	52	28	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	52	29	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	30	scale	scale	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	31	cross	cross	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	32	-	-	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	52	33	over	over	RP
work_hkae3g3zujezzbxxtnt2wuyp4i	52	34	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	35	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	52	36	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	37	free	free	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	52	38	energies	energy	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	52	39	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	40	idealized	idealize	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	41	hydrophobes	hydrophobe	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	52	42	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	52	43	various	various	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	52	44	shapes	shape	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	52	45	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	53	1	Remarkably	remarkably	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	53	2	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	53	3	their	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	53	4	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	5	was	be	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	53	6	also	also	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	53	7	able	able	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	53	8	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	53	9	capture	capture	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	53	10	subtle	subtle	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	53	11	features	feature	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	53	12	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	13	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	53	14	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	53	15	free	free	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	53	16	energetics	energetic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	53	17	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	53	18	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	53	19	as	as	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	20	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	53	21	preference	preference	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	22	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	23	droplets	droplet	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	53	24	over	over	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	25	bubbles	bubble	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	53	26	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	53	27	20	20	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	53	28	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	53	29	21	21	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	53	30	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	53	31	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	53	32	highlighting	highlight	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	53	33	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	53	34	importance	importance	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	35	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	36	capillary	capillary	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	53	37	fluctua-	fluctua-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	38	tions	tion	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	53	39	even	even	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	53	40	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	41	nanoscale	nanoscale	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	53	42	interfaces	interface	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	53	43	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	53	44	Fig	fig	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	53	45	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	54	1	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	54	2	B	B	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	54	3	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	54	4	C	C	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	54	5	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	54	6	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	55	1	In	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	55	2	their	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	55	3	recent	recent	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	55	4	study	study	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	55	5	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	55	6	Vaikuntanathan	Vaikuntanathan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	55	7	et	et	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	55	8	al	al	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	55	9	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	56	1	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	56	2	4	4	LS
work_hkae3g3zujezzbxxtnt2wuyp4i	56	3	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	56	4	subject	subject	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	56	5	their	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	56	6	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	56	7	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	56	8	inspired	inspire	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	9	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	10	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	11	another	another	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	56	12	stringent	stringent	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	56	13	test	test	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	14	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	15	that	that	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	56	16	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	17	quantifying	quantify	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	56	18	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	56	19	statistics	statistic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	56	20	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	21	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	22	density	density	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	23	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	56	24	;	;	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	25	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	56	26	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	56	27	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	28	char-	char-	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	56	29	acterized	acterize	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	30	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	31	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	56	32	probability	probability	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	33	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	34	PvðNÞ	PvðNÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	56	35	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	36	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	37	observing	observe	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	56	38	N	n	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	39	waters	water	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	56	40	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	41	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	56	42	probe	probe	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	43	volume	volume	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	44	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	45	v	v	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	46	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	47	have	have	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	56	48	provided	provide	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	49	numerous	numerous	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	56	50	insights	insight	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	56	51	into	into	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	52	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	56	53	mul-	mul-	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	56	54	tifaceted	tifacete	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	55	nature	nature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	56	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	57	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	56	58	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	56	59	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	56	60	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	56	61	3	3	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	56	62	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	63	16	16	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	56	64	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	65	23	23	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	56	66	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	56	67	24	24	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	56	68	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	56	69	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	57	1	For	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	2	example	example	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	3	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	57	4	low	low	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	57	5	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	57	6	N	n	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	7	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	57	8	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	57	9	significantly	significantly	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	57	10	enhanced	enhance	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	11	near	near	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	12	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	57	13	hy-	hy-	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	57	14	drophobic	drophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	57	15	surface	surface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	16	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	57	17	situating	situate	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	57	18	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	57	19	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	57	20	waters	water	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	57	21	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	22	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	57	23	edge	edge	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	24	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	25	dewetting	dewette	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	57	26	transition	transition	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	27	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	57	28	Fig	fig	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	57	29	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	58	1	1D	1D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	58	2	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	58	3	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	58	4	making	make	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	58	5	them	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	58	6	sensitive	sensitive	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	58	7	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	58	8	pertur-	pertur-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	58	9	bations	bation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	58	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	58	11	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	58	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	58	13	24	24	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	58	14	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	58	15	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	59	1	Using	use	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	59	2	their	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	59	3	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	59	4	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	59	5	inspired	inspire	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	59	6	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	59	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	59	8	Vaikuntanathan	Vaikuntanathan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	59	9	et	et	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	59	10	al	al	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	59	11	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	60	1	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	60	2	4	4	LS
work_hkae3g3zujezzbxxtnt2wuyp4i	60	3	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	60	4	obtain	obtain	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	60	5	not	not	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	60	6	just	just	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	60	7	qualitative	qualitative	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	60	8	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	60	9	but	but	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	60	10	also	also	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	60	11	quantitative	quantitative	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	60	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	60	13	agreement	agreement	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	14	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	15	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	60	16	simulations	simulation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	60	17	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	60	18	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	19	their	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	60	20	estimates	estimate	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	60	21	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	22	PvðNÞ	PvðNÞ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	60	23	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	24	probe	probe	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	25	volumes	volume	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	60	26	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	27	bulk	bulk	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	60	28	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	29	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	60	30	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	31	interfaces	interface	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	60	32	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	60	33	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	60	34	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	35	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	60	36	confinement	confinement	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	60	37	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	61	1	Furthermore	furthermore	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	61	2	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	61	3	this	this	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	61	4	quantitative	quantitative	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	61	5	agree-	agree-	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	61	6	ment	ment	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	61	7	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	61	8	lost	lose	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	61	9	if	if	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	61	10	either	either	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	61	11	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	61	12	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	61	13	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	61	14	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	61	15	scale	scale	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	61	16	Gaussian	gaussian	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	61	17	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	61	18	or	or	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	61	19	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	61	20	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	61	21	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	61	22	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	61	23	scale	scale	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	61	24	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	61	25	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	61	26	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	61	27	not	not	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	61	28	included	include	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	61	29	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	61	30	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	61	31	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	61	32	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	62	1	By	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	62	2	identifying	identify	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	62	3	capillary	capillary	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	62	4	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	62	5	as	as	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	62	6	an	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	62	7	essential	essential	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	62	8	ingredient	ingredient	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	62	9	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	62	10	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	62	11	minimal	minimal	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	62	12	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	62	13	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	62	14	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	62	15	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	62	16	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	62	17	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	62	18	Vaikuntanathan	Vaikuntanathan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	62	19	et	et	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	62	20	al	al	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	62	21	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	63	1	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	63	2	4	4	LS
work_hkae3g3zujezzbxxtnt2wuyp4i	63	3	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	63	4	have	have	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	63	5	laid	lay	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	6	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	63	7	groundwork	groundwork	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	8	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	9	studying	study	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	63	10	aqueous	aqueous	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	63	11	systems	system	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	63	12	using	use	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	63	13	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	63	14	coarse	coarse	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	63	15	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	63	16	grained	grain	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	17	representation	representation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	18	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	19	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	20	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	63	21	which	which	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	63	22	has	have	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	63	23	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	63	24	accuracy	accuracy	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	25	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	26	molecular	molecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	63	27	simulations	simulation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	63	28	but	but	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	63	29	exacts	exact	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	63	30	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	63	31	tiny	tiny	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	63	32	fraction	fraction	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	33	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	34	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	63	35	computational	computational	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	63	36	cost	cost	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	63	37	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	64	1	Given	give	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	2	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	64	3	importance	importance	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	4	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	5	solvent	solvent	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	6	fluctua-	fluctua-	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	64	7	tions	tion	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	64	8	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	9	modulating	modulate	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	64	10	dewetting	dewette	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	64	11	barriers	barrier	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	64	12	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	64	13	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	64	14	kinetics	kinetic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	64	15	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	16	hydro-	hydro-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	17	phobic	phobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	64	18	interactions	interaction	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	64	19	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	64	20	25–27	25–27	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	64	21	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	64	22	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	64	23	their	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	64	24	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	25	could	could	MD
work_hkae3g3zujezzbxxtnt2wuyp4i	64	26	conceivably	conceivably	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	64	27	be	be	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	64	28	used	use	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	29	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	64	30	study	study	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	64	31	not	not	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	64	32	only	only	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	64	33	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	64	34	thermodynamics	thermodynamic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	64	35	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	64	36	but	but	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	64	37	also	also	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	64	38	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	64	39	kinetics	kinetic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	64	40	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	41	complex	complex	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	64	42	self	self	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	64	43	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	64	44	assemblies	assembly	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	64	45	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	65	1	Another	another	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	65	2	important	important	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	65	3	application	application	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	65	4	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	65	5	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	65	6	study	study	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	65	7	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	65	8	biomolecules	biomolecule	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	65	9	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	65	10	which	which	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	65	11	are	be	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	65	12	too	too	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	65	13	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	65	14	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	65	15	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	65	16	using	use	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	65	17	explicit	explicit	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	65	18	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	65	19	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	66	1	Along	along	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	66	2	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	66	3	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	66	4	interactions	interaction	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	66	5	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	66	6	electrostatic	electrostatic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	66	7	interac-	interac-	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	66	8	tions	tion	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	66	9	also	also	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	66	10	play	play	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	66	11	an	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	66	12	important	important	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	66	13	role	role	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	66	14	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	66	15	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	66	16	biomolecular	biomolecular	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	66	17	context	context	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	66	18	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	67	1	We	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	67	2	hope	hope	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	67	3	that	that	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	4	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	67	5	success	success	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	6	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	7	LCW	LCW	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	67	8	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	67	9	inspired	inspire	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	10	models	model	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	67	11	motivates	motivate	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	67	12	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	67	13	de-	de-	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	67	14	velopment	velopment	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	15	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	16	minimal	minimal	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	67	17	models	model	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	67	18	that	that	WDT
work_hkae3g3zujezzbxxtnt2wuyp4i	67	19	efficiently	efficiently	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	67	20	incorporate	incorporate	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	67	21	fluctua-	fluctua-	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	67	22	tions	tion	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	67	23	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	24	both	both	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	67	25	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	67	26	short-	short-	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	67	27	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	67	28	long	long	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	67	29	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	67	30	wavelength	wavelength	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	31	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	32	polarization	polarization	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	33	response	response	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	34	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	35	charged	charge	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	67	36	moieties	moiety	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	67	37	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	67	38	28	28	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	67	39	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	67	40	29	29	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	67	41	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	67	42	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	68	1	Acknowledgments	acknowledgment	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	68	2	This	this	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	68	3	work	work	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	68	4	was	be	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	68	5	supported	support	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	68	6	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	68	7	National	National	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	8	Science	Science	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	9	Foundation	Foundation	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	10	Grants	Grants	NNPS
work_hkae3g3zujezzbxxtnt2wuyp4i	68	11	UPENN	UPENN	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	12	MRSEC	MRSEC	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	13	DMR	DMR	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	14	11	11	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	68	15	-	-	SYM
work_hkae3g3zujezzbxxtnt2wuyp4i	68	16	20901	20901	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	68	17	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	68	18	CBET	CBET	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	19	1511437	1511437	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	68	20	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	68	21	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	68	22	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	68	23	Charles	Charles	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	24	E.	E.	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	25	Kaufman	Kaufman	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	26	Foundation	Foundation	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	27	Grant	Grant	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	28	KA2015	KA2015	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	68	29	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	68	30	79204	79204	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	68	31	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	69	1	A	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	69	2	B	b	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	69	3	C	c	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	69	4	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	69	5	Fig	fig	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	69	6	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	70	1	1	1	LS
work_hkae3g3zujezzbxxtnt2wuyp4i	70	2	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	71	1	Long	long	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	71	2	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	71	3	wavelength	wavelength	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	4	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	71	5	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	71	6	can	can	MD
work_hkae3g3zujezzbxxtnt2wuyp4i	71	7	be	be	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	71	8	seen	see	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	9	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	10	simulation	simulation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	11	snapshots	snapshot	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	71	12	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	13	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	71	14	A	a	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	15	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	71	16	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	71	17	liquid	liquid	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	18	–	–	:
work_hkae3g3zujezzbxxtnt2wuyp4i	71	19	vapor	vapor	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	20	interface	interface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	21	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	71	22	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	71	23	B	b	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	24	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	71	25	C	C	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	71	26	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	71	27	nanoscopic	nanoscopic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	71	28	vapor	vapor	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	29	bubbles	bubble	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	71	30	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	31	bulk	bulk	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	71	32	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	33	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	71	34	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	71	35	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	71	36	D	d	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	37	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	71	38	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	39	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	71	40	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	71	41	surface	surface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	71	42	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	72	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	72	2	work	work	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	72	3	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	72	4	Vaikuntanathan	Vaikuntanathan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	72	5	et	et	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	72	6	al	al	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	72	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	73	1	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	73	2	4	4	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	73	3	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	73	4	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	73	5	Vaikuntanathan	Vaikuntanathan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	73	6	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	73	7	Geissler	Geissler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	73	8	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	73	9	20	20	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	73	10	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	73	11	highlights	highlight	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	73	12	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	73	13	importance	importance	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	73	14	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	73	15	such	such	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	73	16	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	73	17	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	73	18	provides	provide	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	73	19	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	73	20	way	way	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	73	21	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	73	22	incorporate	incorporate	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	73	23	them	-PRON-	PRP
work_hkae3g3zujezzbxxtnt2wuyp4i	73	24	into	into	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	73	25	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	73	26	minimal	minimal	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	73	27	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	73	28	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	73	29	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	73	30	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	73	31	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	73	32	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	74	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	74	2	average	average	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	74	3	interface	interface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	4	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	5	each	each	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	74	6	case	case	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	7	is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	74	8	either	either	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	74	9	flat	flat	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	74	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	11	A	a	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	12	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	74	13	D	d	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	14	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	15	or	or	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	74	16	spherical	spherical	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	74	17	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	18	B	b	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	19	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	74	20	C	C	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	74	21	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	22	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	74	23	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	74	24	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	74	25	color	color	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	26	represents	represent	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	74	27	deviation	deviation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	28	away	away	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	74	29	from	from	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	30	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	74	31	average	average	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	74	32	interface	interface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	33	toward	toward	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	34	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	35	red	red	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	74	36	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	37	or	or	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	74	38	away	away	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	74	39	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	40	blue	blue	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	74	41	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	42	from	from	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	43	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	74	44	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	45	cyan	cyan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	74	46	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	74	47	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	75	1	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	75	2	instantaneous	instantaneous	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	75	3	interfaces	interface	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	75	4	were	be	VBD
work_hkae3g3zujezzbxxtnt2wuyp4i	75	5	computed	compute	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	75	6	using	use	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	75	7	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	75	8	algorithm	algorithm	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	75	9	outlined	outline	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	75	10	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	75	11	ref	ref	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	75	12	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	76	1	22	22	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	76	2	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	77	1	4550	4550	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	77	2	|	|	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	3	www.pnas.org/cgi/doi/10.1073/pnas.1603014113	www.pnas.org/cgi/doi/10.1073/pnas.1603014113	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	4	Xi	Xi	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	5	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	77	6	Patel	Patel	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	7	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	8	o	o	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	9	w	w	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	10	n	n	XX
work_hkae3g3zujezzbxxtnt2wuyp4i	77	11	lo	lo	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	12	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	77	13	d	d	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	14	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	15	d	d	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	16	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	77	17	t	t	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	18	C	c	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	19	a	a	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	20	rn	rn	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	21	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	22	g	g	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	23	ie	ie	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	24	M	M	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	25	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	26	llo	llo	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	27	n	n	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	28	U	u	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	29	n	n	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	77	30	iv	iv	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	31	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	32	rs	rs	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	33	ity	ity	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	34	o	o	XX
work_hkae3g3zujezzbxxtnt2wuyp4i	77	35	n	n	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	77	36	A	A	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	37	p	p	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	38	ri	ri	FW
work_hkae3g3zujezzbxxtnt2wuyp4i	77	39	l	l	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	40	5	5	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	77	41	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	77	42	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	77	43	0	0	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	77	44	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	77	45	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	77	46	www.pnas.org/cgi/doi/10.1073/pnas.1603014113	www.pnas.org/cgi/doi/10.1073/pnas.1603014113	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	77	47	1	1	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	77	48	Chandler	Chandler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	49	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	50	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	77	51	2005	2005	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	77	52	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	77	53	Interfaces	Interfaces	NNPS
work_hkae3g3zujezzbxxtnt2wuyp4i	77	54	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	77	55	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	77	56	driving	drive	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	77	57	force	force	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	58	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	77	59	hydrophobic	hydrophobic	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	60	assembly	assembly	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	77	61	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	78	1	Nature	nature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	78	2	437(7059):640–647	437(7059):640–647	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	78	3	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	79	1	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	79	2	Lum	Lum	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	79	3	K	K	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	79	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	79	5	Chandler	Chandler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	79	6	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	79	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	79	8	Weeks	Weeks	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	79	9	JD	JD	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	79	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	79	11	1999	1999	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	79	12	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	79	13	Hydrophobicity	hydrophobicity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	79	14	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	79	15	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	79	16	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	79	17	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	79	18	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	79	19	scales	scale	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	79	20	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	80	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	80	2	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	80	3	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	80	4	B	B	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	80	5	103:4570–4577	103:4570–4577	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	80	6	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	81	1	3	3	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	81	2	Patel	Patel	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	81	3	AJ	AJ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	81	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	81	5	et	et	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	81	6	al	al	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	81	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	82	1	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	82	2	2011	2011	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	82	3	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	82	4	Extended	extended	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	82	5	surfaces	surface	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	82	6	modulate	modulate	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	82	7	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	82	8	interactions	interaction	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	82	9	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	82	10	neighboring	neighboring	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	82	11	solutes	solute	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	82	12	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	83	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	83	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	83	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	83	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	83	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	83	6	108(43):17678–17683	108(43):17678–17683	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	83	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	84	1	4	4	LS
work_hkae3g3zujezzbxxtnt2wuyp4i	84	2	Vaikuntanathan	Vaikuntanathan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	84	3	S	S	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	84	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	84	5	Rotskoff	Rotskoff	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	84	6	G	G	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	84	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	84	8	Hudson	Hudson	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	84	9	A	A	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	84	10	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	84	11	Geissler	Geissler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	84	12	PL	PL	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	84	13	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	84	14	2016	2016	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	84	15	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	84	16	Necessity	necessity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	84	17	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	84	18	capillary	capillary	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	84	19	modes	mode	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	84	20	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	84	21	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	84	22	minimal	minimal	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	84	23	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	84	24	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	84	25	nanoscale	nanoscale	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	84	26	hydrophobic	hydrophobic	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	84	27	solvation	solvation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	84	28	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	85	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	85	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	85	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	85	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	85	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	85	6	113(16):E2224–E2230	113(16):e2224–e2230	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	85	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	86	1	5	5	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	86	2	Ducker	Ducker	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	86	3	WA	WA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	86	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	86	5	Mastropietro	Mastropietro	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	86	6	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	86	7	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	86	8	2016	2016	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	86	9	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	86	10	Forces	force	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	86	11	between	between	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	86	12	extended	extended	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	86	13	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	86	14	solids	solid	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	86	15	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	86	16	Is	be	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	86	17	there	there	EX
work_hkae3g3zujezzbxxtnt2wuyp4i	86	18	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	86	19	long	long	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	86	20	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	86	21	range	range	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	86	22	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	86	23	force	force	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	86	24	?	?	.
work_hkae3g3zujezzbxxtnt2wuyp4i	87	1	Curr	Curr	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	87	2	Opin	Opin	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	87	3	Colloid	Colloid	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	87	4	Interface	Interface	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	87	5	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	87	6	22:51–58	22:51–58	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	87	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	88	1	6	6	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	88	2	Cavallaro	Cavallaro	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	3	M	M	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	88	5	Jr	Jr	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	6	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	88	7	Botto	Botto	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	8	L	L	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	9	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	88	10	Lewandowski	Lewandowski	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	11	EP	EP	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	12	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	88	13	Wang	Wang	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	14	M	M	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	15	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	88	16	Stebe	Stebe	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	17	KJ	KJ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	88	18	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	88	19	2011	2011	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	88	20	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	88	21	Curvature	curvature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	88	22	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	88	23	driven	drive	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	88	24	capillary	capillary	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	88	25	migration	migration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	88	26	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	88	27	assembly	assembly	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	88	28	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	88	29	rod	rod	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	88	30	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	88	31	like	like	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	88	32	particles	particle	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	88	33	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	89	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	89	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	89	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	89	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	89	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	89	6	108(52):20923–20928	108(52):20923–20928	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	89	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	90	1	7	7	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	90	2	Matysiak	Matysiak	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	90	3	S	S	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	90	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	90	5	Debenedetti	Debenedetti	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	90	6	PG	PG	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	90	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	90	8	Rossky	Rossky	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	90	9	PJ	PJ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	90	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	90	11	2012	2012	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	90	12	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	90	13	Role	role	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	14	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	15	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	16	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	17	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	18	protein	protein	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	19	stability	stability	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	20	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	90	21	A	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	90	22	3D	3d	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	90	23	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	24	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	90	25	explicit	explicit	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	90	26	protein	protein	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	27	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	28	exhibiting	exhibit	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	90	29	cold	cold	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	90	30	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	90	31	heat	heat	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	90	32	denaturation	denaturation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	90	33	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	91	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	91	2	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	91	3	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	91	4	B	B	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	91	5	116(28):8095–8104	116(28):8095–8104	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	91	6	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	92	1	8	8	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	92	2	Lee	Lee	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	92	3	CY	CY	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	92	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	92	5	McCammon	McCammon	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	92	6	JA	JA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	92	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	92	8	Rossky	Rossky	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	92	9	PJ	PJ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	92	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	92	11	1984	1984	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	92	12	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	92	13	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	92	14	structure	structure	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	92	15	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	92	16	liquid	liquid	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	92	17	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	92	18	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	92	19	an	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	92	20	extended	extended	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	92	21	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	92	22	surface	surface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	92	23	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	93	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	93	2	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	93	3	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	93	4	80:4448–4455	80:4448–4455	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	93	5	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	94	1	9	9	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	94	2	Stillinger	Stillinger	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	94	3	FH	FH	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	94	4	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	94	5	1973	1973	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	94	6	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	94	7	Structure	structure	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	94	8	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	94	9	aqueous	aqueous	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	94	10	solutions	solution	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	94	11	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	94	12	nonpolar	nonpolar	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	94	13	solutes	solute	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	94	14	from	from	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	94	15	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	94	16	standpoint	standpoint	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	94	17	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	94	18	scaled	scale	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	94	19	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	94	20	particle	particle	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	94	21	theory	theory	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	94	22	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	95	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	95	2	Solution	Solution	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	95	3	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	95	4	2:141–158	2:141–158	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	95	5	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	96	1	10	10	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	96	2	Ashbaugh	ashbaugh	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	96	3	HS	hs	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	96	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	96	5	Pratt	Pratt	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	96	6	LR	LR	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	96	7	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	96	8	2006	2006	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	96	9	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	96	10	Colloquium	colloquium	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	96	11	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	96	12	Scaled	scale	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	96	13	particle	particle	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	96	14	theory	theory	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	96	15	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	96	16	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	96	17	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	96	18	scales	scale	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	96	19	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	96	20	hydrophobicity	hydrophobicity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	96	21	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	97	1	Rev	Rev	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	97	2	Mod	Mod	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	97	3	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	97	4	78:159	78:159	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	97	5	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	98	1	11	11	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	98	2	Southall	Southall	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	98	3	NT	NT	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	98	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	98	5	Dill	Dill	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	98	6	KA	KA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	98	7	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	98	8	2000	2000	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	98	9	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	98	10	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	98	11	mechanism	mechanism	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	98	12	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	98	13	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	98	14	solvation	solvation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	98	15	depends	depend	VBZ
work_hkae3g3zujezzbxxtnt2wuyp4i	98	16	on	on	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	98	17	solute	solute	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	98	18	radius	radius	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	98	19	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	99	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	99	2	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	99	3	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	99	4	B	B	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	99	5	104:1326–1331	104:1326–1331	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	99	6	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	100	1	12	12	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	100	2	Rajamani	Rajamani	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	100	3	S	S	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	100	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	100	5	Truskett	Truskett	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	100	6	TM	TM	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	100	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	100	8	Garde	Garde	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	100	9	S	S	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	100	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	100	11	2005	2005	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	100	12	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	100	13	Hydrophobic	Hydrophobic	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	100	14	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	100	15	from	from	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	100	16	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	100	17	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	100	18	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	100	19	lengthscales	lengthscale	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	100	20	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	100	21	Understanding	understanding	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	100	22	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	100	23	manipulating	manipulate	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	100	24	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	100	25	crossover	crossover	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	100	26	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	101	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	101	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	101	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	101	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	101	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	101	6	102(27):9475–9480	102(27):9475–9480	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	101	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	102	1	13	13	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	102	2	Li	Li	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	102	3	IT	IT	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	102	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	102	5	Walker	Walker	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	102	6	GC	GC	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	102	7	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	102	8	2011	2011	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	102	9	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	102	10	Signature	signature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	102	11	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	102	12	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	102	13	hydration	hydration	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	102	14	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	102	15	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	102	16	single	single	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	102	17	polymer	polymer	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	102	18	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	103	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	103	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	103	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	103	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	103	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	103	6	108(40):16527–16532	108(40):16527–16532	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	103	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	104	1	14	14	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	104	2	Pratt	Pratt	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	104	3	LR	LR	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	104	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	104	5	Chandler	Chandler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	104	6	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	104	7	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	104	8	1977	1977	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	104	9	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	104	10	Theory	theory	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	104	11	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	104	12	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	104	13	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	104	14	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	104	15	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	105	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	105	2	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	105	3	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	105	4	67:3683–3704	67:3683–3704	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	105	5	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	106	1	15	15	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	106	2	Chandler	Chandler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	106	3	D	d	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	106	4	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	106	5	1993	1993	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	106	6	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	106	7	Gaussian	gaussian	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	106	8	field	field	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	106	9	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	106	10	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	106	11	fluids	fluid	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	106	12	with	with	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	106	13	an	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	106	14	application	application	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	106	15	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	106	16	polymeric	polymeric	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	106	17	fluids	fluid	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	106	18	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	107	1	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	2	Rev	Rev	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	3	E	E	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	4	Stat	Stat	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	5	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	6	Plasmas	Plasmas	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	7	Fluids	Fluids	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	8	Relat	Relat	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	9	Interdiscip	Interdiscip	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	10	Topics	Topics	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	107	11	48(4	48(4	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	107	12	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	107	13	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	107	14	2898–2905	2898–2905	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	107	15	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	108	1	16	16	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	108	2	Hummer	Hummer	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	3	G	G	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	108	5	Garde	Garde	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	6	S	S	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	108	8	García	García	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	9	AE	AE	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	10	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	108	11	Pohorille	Pohorille	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	12	A	A	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	13	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	108	14	Pratt	Pratt	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	15	LR	LR	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	108	16	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	108	17	1996	1996	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	108	18	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	108	19	An	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	108	20	information	information	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	108	21	theory	theory	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	108	22	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	108	23	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	108	24	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	108	25	interactions	interaction	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	108	26	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	109	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	109	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	109	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	109	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	109	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	109	6	93(17):8951–8955	93(17):8951–8955	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	109	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	110	1	17	17	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	110	2	ten	ten	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	110	3	Wolde	Wolde	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	110	4	PR	PR	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	110	5	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	110	6	Sun	Sun	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	110	7	SX	SX	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	110	8	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	110	9	Chandler	Chandler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	110	10	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	110	11	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	110	12	2002	2002	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	110	13	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	110	14	Model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	110	15	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	110	16	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	110	17	fluid	fluid	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	110	18	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	110	19	small	small	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	110	20	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	110	21	large	large	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	110	22	length	length	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	110	23	scales	scale	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	110	24	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	110	25	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	110	26	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	110	27	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	110	28	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	111	1	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	2	Rev	Rev	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	3	E	E	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	4	Stat	Stat	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	5	Nonlin	Nonlin	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	6	Soft	Soft	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	7	Matter	Matter	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	8	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	9	65(1	65(1	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	10	Pt	Pt	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	111	11	1):011201	1):011201	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	111	12	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	112	1	18	18	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	112	2	Varilly	varilly	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	112	3	P	p	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	112	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	112	5	Patel	Patel	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	112	6	AJ	AJ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	112	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	112	8	Chandler	Chandler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	112	9	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	112	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	112	11	2011	2011	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	112	12	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	112	13	An	an	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	112	14	improved	improve	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	112	15	coarse	coarse	RB
work_hkae3g3zujezzbxxtnt2wuyp4i	112	16	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	112	17	grained	grain	VBN
work_hkae3g3zujezzbxxtnt2wuyp4i	112	18	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	112	19	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	112	20	solvation	solvation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	112	21	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	112	22	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	112	23	hydrophobic	hydrophobic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	112	24	effect	effect	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	112	25	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	113	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	113	2	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	113	3	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	113	4	134(7):074109	134(7):074109	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	113	5	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	114	1	19	19	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	114	2	Weeks	Weeks	NNPS
work_hkae3g3zujezzbxxtnt2wuyp4i	114	3	JD	JD	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	114	4	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	114	5	1977	1977	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	114	6	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	114	7	Structure	structure	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	114	8	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	114	9	thermodynamics	thermodynamic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	114	10	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	114	11	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	114	12	liquid	liquid	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	114	13	–	–	:
work_hkae3g3zujezzbxxtnt2wuyp4i	114	14	vapor	vapor	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	114	15	interface	interface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	114	16	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	115	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	115	2	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	115	3	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	115	4	67:3106–3121	67:3106–3121	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	115	5	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	116	1	20	20	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	116	2	Vaikuntanathan	Vaikuntanathan	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	116	3	S	S	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	116	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	116	5	Geissler	Geissler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	116	6	PL	PL	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	116	7	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	116	8	2014	2014	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	116	9	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	116	10	Putting	put	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	116	11	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	12	on	on	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	13	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	116	14	lattice	lattice	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	15	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	116	16	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	116	17	importance	importance	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	18	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	19	long	long	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	116	20	wavelength	wavelength	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	21	density	density	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	22	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	116	23	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	24	theories	theory	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	116	25	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	26	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	116	27	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	116	28	interfacial	interfacial	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	116	29	phenomena	phenomenon	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	116	30	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	117	1	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	117	2	Rev	Rev	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	117	3	Lett	Lett	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	117	4	112(2):020603	112(2):020603	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	117	5	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	118	1	21	21	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	118	2	Sedlmeier	Sedlmeier	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	118	3	F	F	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	118	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	118	5	Netz	Netz	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	118	6	RR	RR	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	118	7	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	118	8	2012	2012	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	118	9	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	118	10	The	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	118	11	spontaneous	spontaneous	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	118	12	curvature	curvature	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	118	13	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	118	14	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	118	15	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	118	16	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	118	17	hydrophobe	hydrophobe	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	118	18	interface	interface	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	118	19	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	119	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	119	2	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	119	3	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	119	4	137(13):135102	137(13):135102	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	119	5	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	120	1	22	22	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	120	2	Willard	Willard	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	120	3	AP	AP	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	120	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	120	5	Chandler	Chandler	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	120	6	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	120	7	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	120	8	2010	2010	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	120	9	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	120	10	Instantaneous	instantaneous	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	120	11	liquid	liquid	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	120	12	interfaces	interface	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	120	13	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	121	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	121	2	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	121	3	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	121	4	B	B	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	121	5	114(5):1954–1958	114(5):1954–1958	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	121	6	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	122	1	23	23	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	122	2	Godawat	Godawat	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	122	3	R	R	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	122	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	122	5	Jamadagni	Jamadagni	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	122	6	SN	SN	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	122	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	122	8	Garde	Garde	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	122	9	S	S	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	122	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	122	11	2009	2009	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	122	12	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	122	13	Characterizing	characterizing	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	122	14	hydrophobicity	hydrophobicity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	122	15	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	122	16	interfaces	interface	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	122	17	by	by	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	122	18	using	use	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	122	19	cavity	cavity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	122	20	formation	formation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	122	21	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	122	22	solute	solute	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	122	23	binding	binding	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	122	24	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	122	25	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	122	26	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	122	27	correlations	correlation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	122	28	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	123	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	123	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	123	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	123	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	123	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	123	6	106(36):15119–15124	106(36):15119–15124	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	123	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	124	1	24	24	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	124	2	Patel	Patel	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	124	3	AJ	AJ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	124	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	124	5	et	et	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	124	6	al	al	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	124	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	125	1	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	125	2	2012	2012	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	125	3	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	125	4	Sitting	sit	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	125	5	at	at	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	125	6	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	125	7	edge	edge	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	125	8	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	125	9	How	how	WRB
work_hkae3g3zujezzbxxtnt2wuyp4i	125	10	biomolecules	biomolecule	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	125	11	use	use	VBP
work_hkae3g3zujezzbxxtnt2wuyp4i	125	12	hydrophobicity	hydrophobicity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	125	13	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	125	14	tune	tune	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	125	15	their	-PRON-	PRP$
work_hkae3g3zujezzbxxtnt2wuyp4i	125	16	interactions	interaction	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	125	17	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	125	18	function	function	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	125	19	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	126	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	126	2	Phys	Phys	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	126	3	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	126	4	B	B	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	126	5	116(8):2498–2503	116(8):2498–2503	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	126	6	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	127	1	25	25	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	127	2	Setny	Setny	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	3	P	P	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	127	5	Baron	Baron	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	6	R	R	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	127	8	Michael	Michael	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	9	Kekenes	Kekenes	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	10	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	127	11	Huskey	Huskey	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	12	P	P	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	13	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	127	14	McCammon	McCammon	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	15	JA	JA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	16	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	127	17	Dzubiella	Dzubiella	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	18	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	19	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	127	20	2013	2013	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	127	21	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	127	22	Solvent	Solvent	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	23	fluctuations	fluctuation	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	127	24	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	127	25	hydrophobic	hydrophobic	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	127	26	cavity	cavity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	127	27	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	127	28	ligand	ligand	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	127	29	binding	bind	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	127	30	kinetics	kinetic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	127	31	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	128	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	128	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	128	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	128	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	128	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	128	6	110(4):1197–1202	110(4):1197–1202	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	128	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	129	1	26	26	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	129	2	Remsing	Remsing	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	129	3	RC	RC	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	129	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	129	5	et	et	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	129	6	al	al	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	129	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	130	1	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	130	2	2015	2015	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	130	3	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	130	4	Pathways	pathway	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	130	5	to	to	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	130	6	dewetting	dewette	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	130	7	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	130	8	hydrophobic	hydrophobic	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	130	9	confinement	confinement	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	130	10	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	131	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	131	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	131	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	131	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	131	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	131	6	112(27):8181–8186	112(27):8181–8186	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	131	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	132	1	27	27	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	132	2	Tiwary	Tiwary	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	132	3	P	P	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	132	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	132	5	Mondal	Mondal	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	132	6	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	132	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	132	8	Morrone	Morrone	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	132	9	JA	JA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	132	10	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	132	11	Berne	Berne	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	132	12	BJ	BJ	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	132	13	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	132	14	2015	2015	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	132	15	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	132	16	Role	role	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	132	17	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	132	18	water	water	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	132	19	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	132	20	steric	steric	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	132	21	constraints	constraint	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	132	22	in	in	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	132	23	the	the	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	132	24	kinetics	kinetic	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	132	25	of	of	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	132	26	cavity	cavity	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	132	27	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	132	28	ligand	ligand	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	132	29	unbinding	unbinding	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	132	30	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	133	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	133	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	133	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	133	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	133	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	133	6	112(39	112(39	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	133	7	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	133	8	:	:	:
work_hkae3g3zujezzbxxtnt2wuyp4i	133	9	12015–12019	12015–12019	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	133	10	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	134	1	28	28	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	134	2	Hummer	Hummer	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	134	3	G	g	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	134	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	134	5	Pratt	Pratt	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	134	6	LR	LR	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	134	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	134	8	García	García	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	134	9	AE	AE	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	134	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	134	11	1997	1997	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	134	12	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	134	13	Multistate	multistate	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	134	14	gaussian	gaussian	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	134	15	model	model	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	134	16	for	for	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	134	17	electrostatic	electrostatic	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	134	18	solvation	solvation	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	134	19	free	free	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	134	20	energies	energy	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	134	21	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	135	1	J	J	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	135	2	Am	Am	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	135	3	Chem	Chem	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	135	4	Soc	Soc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	135	5	119:8523–8527	119:8523–8527	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	135	6	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	136	1	29	29	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	136	2	Remsing	remse	VBG
work_hkae3g3zujezzbxxtnt2wuyp4i	136	3	RC	rc	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	136	4	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	136	5	Liu	Liu	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	136	6	S	S	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	136	7	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	136	8	Weeks	Weeks	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	136	9	JD	JD	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	136	10	(	(	-LRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	136	11	2016	2016	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	136	12	)	)	-RRB-
work_hkae3g3zujezzbxxtnt2wuyp4i	136	13	Long	long	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	136	14	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	136	15	ranged	ranged	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	136	16	contributions	contribution	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	136	17	to	to	TO
work_hkae3g3zujezzbxxtnt2wuyp4i	136	18	solvation	solvation	VB
work_hkae3g3zujezzbxxtnt2wuyp4i	136	19	free	free	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	136	20	energies	energy	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	136	21	from	from	IN
work_hkae3g3zujezzbxxtnt2wuyp4i	136	22	theory	theory	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	136	23	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	136	24	short	short	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	136	25	-	-	HYPH
work_hkae3g3zujezzbxxtnt2wuyp4i	136	26	ranged	ranged	JJ
work_hkae3g3zujezzbxxtnt2wuyp4i	136	27	models	model	NNS
work_hkae3g3zujezzbxxtnt2wuyp4i	136	28	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	137	1	Proc	Proc	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	137	2	Natl	Natl	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	137	3	Acad	Acad	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	137	4	Sci	Sci	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	137	5	USA	USA	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	137	6	113:2819–2826	113:2819–2826	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	137	7	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	138	1	Xi	Xi	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	138	2	and	and	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	138	3	Patel	Patel	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	138	4	PNAS	PNAS	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	138	5	|	|	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	138	6	April	April	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	138	7	26	26	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	138	8	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	138	9	2016	2016	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	138	10	|	|	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	138	11	vol	vol	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	138	12	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	139	1	113	113	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	139	2	|	|	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	139	3	no	no	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	139	4	.	.	.
work_hkae3g3zujezzbxxtnt2wuyp4i	140	1	17	17	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	140	2	|	|	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	140	3	4551	4551	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	140	4	D	D	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	5	o	o	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	6	w	w	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	7	n	n	XX
work_hkae3g3zujezzbxxtnt2wuyp4i	140	8	lo	lo	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	9	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	140	10	d	d	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	11	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	12	d	d	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	13	a	a	DT
work_hkae3g3zujezzbxxtnt2wuyp4i	140	14	t	t	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	15	C	c	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	16	a	a	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	17	rn	rn	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	18	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	19	g	g	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	20	ie	ie	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	21	M	M	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	22	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	23	llo	llo	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	24	n	n	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	25	U	u	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	26	n	n	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	140	27	iv	iv	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	28	e	e	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	29	rs	rs	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	30	ity	ity	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	31	o	o	XX
work_hkae3g3zujezzbxxtnt2wuyp4i	140	32	n	n	CC
work_hkae3g3zujezzbxxtnt2wuyp4i	140	33	A	A	NNP
work_hkae3g3zujezzbxxtnt2wuyp4i	140	34	p	p	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	35	ri	ri	FW
work_hkae3g3zujezzbxxtnt2wuyp4i	140	36	l	l	NN
work_hkae3g3zujezzbxxtnt2wuyp4i	140	37	5	5	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	140	38	,	,	,
work_hkae3g3zujezzbxxtnt2wuyp4i	140	39	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	140	40	0	0	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	140	41	2	2	CD
work_hkae3g3zujezzbxxtnt2wuyp4i	140	42	1	1	CD