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Fundamentals and photocatalytic hydrogen evolution applications of quaternary chalcogenide semiconductor:Cu_(2)ZnSnS_(4) 被引量:4
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作者 Xin-Long Zheng Ying-Jie Yang +9 位作者 Yu-Hao Liu Pei-Lin Deng Jing Li Wei-Feng Liu Peng Rao chun-man jia Wei Huang Yan-Lian Du Yi-Jun Shen Xin-Long Tian 《Rare Metals》 SCIE EI CAS CSCD 2022年第7期2153-2168,共16页
Inexpensive,safe,and efficient conversion of solar energy to hydrogen from water splitting requires the development of effective and durable photocatalysts.Cu_(2)ZnSnS_(4)(CZTS),the emerging quaternary chalcogenide ma... Inexpensive,safe,and efficient conversion of solar energy to hydrogen from water splitting requires the development of effective and durable photocatalysts.Cu_(2)ZnSnS_(4)(CZTS),the emerging quaternary chalcogenide material for solar energy conversion,possesses many advantages,such as narrow direct band gap(1.5 eV),nontoxic,earth-abundance,and low melting point.Currently,CZTS-based photocatalysts have been extensively investigated for their application as an active photocatalyst in hydrogen evolution from water splitting,while the performance is still highly needed to be improved for the practical applications.In this review,first,the crystal and band structure properties of CZTS are briefly introduced,and afterward,the basic principle of photocatalytic hydrogen evolution from water splitting is discussed.Subsequently,the performance and status of bare CZTS,the combination of CZTS and co-catalysts,and CZTSbased heterojunction photocatalysts for hydrogen evolution are reviewed and discussed in detail.Finally,the issues and challenges currently encountered in the application of CZTS and their possible solutions for developing advanced CZTS photocatalysts are provided. 展开更多
关键词 Cu_(2)ZnSnS_(4) Quaternary chalcogenide PHOTOCATALYST Hydrogen evolution
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