id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
work_qbtw4va4hzerfkhrtqetcmaaq4	Xiaowen Huang	Review on optofluidic microreactors for artificial photosynthesis	2018	12	.pdf	application/pdf	6640	1026	68	CO2 fixation and coenzyme regeneration in optofluidic APS systems, followed by discussions on pending problems for real The small volume of optofluidic systems reduces the diffusion time, dramatically increases the reaction rate on the photocatalyst surface, and reduces the consumption of expensive Figure 3A shows the charge carrier transfer in a heterojunctiontype photocatalytic system, in which the photo-generated electrons and holes are separated in space to suppress the undesirable recombination. An optofluidic microreactor is a versatile platform for combining new materials and characterizing their reaction kinetics Figure 4: (A) Schematic of the high-surface-area optofluidic microreactor with micropillar structure. Reprint with the permission from [74], copyright 2014 Elsevier Ltd. Figure 5: (A) Schematic of the high-surface-area optofluidic microreactor with micro-grooved structure. Figure 6: Schematic of the optofluidic membrane microreactor for photocatalytic CO2 reduction. Liu, J.; An, T.; Chen, Z.; Wang, Z.; Zhou, H.; Fan, T.; Zhang, D.;	./cache/work_qbtw4va4hzerfkhrtqetcmaaq4.pdf	./txt/work_qbtw4va4hzerfkhrtqetcmaaq4.txt