摘要
The practical application of hexagonal ZnIn_(2)S_(4)(ZIS)as a visible-light photocatalyst for hydrogen(H_(2))production is hindered by rapid internal charge recombination.In this study,we successfully synthesized Cu_(2)CoSnS_(4)(CCTS)nanocrystals and loaded them onto the surface of ZIS nanosheets to create a p-n heterojunction photocatalyst.The optimized Cu_(2)CoSnS_(4)/ZnIn_(2)S_(4)(CCTS/ZIS)heterojunction exhibited a significantly higher visible-light photo-catalytic H_(2)evolution rate of 4.90 mmol·g^(-1)·h^(-1)compared to ZIS and CCTS alone.The enhanced photocatalytic efficiency was attributed to improved electron transfer and charge separation at the heterojunction interface.The formation of p-n heterojunction facilitated the accumulation of valence band electrons in ZIS and conduction band holes in CCTS,effectively suppressing the recombination of photogenerated electrons and holes.Theoretical calculations,spectroscopic,and photoelectrochemical characterizations supported the findings.This work pre-sents a promising approach for designing efficient p-n heterojunction semiconductor photocatalysts for practical applications in visible-light-driven hydrogen evolution.
基金
supported by the National Natural Science Foundation of China(22209203,22309204,22175076,U23A20136)
China University of Mining and Technology Education Development Foundation(PCSX202202)
Material Science and Engineering Discipline Guidance Fund of China University of Mining and Technology(CUMTMS202202,CUMTMS202207).