Volume 7 Issue 2
Apr.  2022
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Article Navigation >  Green Energy&Environment  > 2022  >  7(2): 176-204
Guping Zhang, Hao Wu, Dongyun Chen, Najun Li, Qingfeng Xu, Hua Li, Jinghui He, Jianmei Lu. A mini-review on ZnIn2S4-Based photocatalysts for energy and environmental application. Green Energy&Environment, 2022, 7(2): 176-204. doi: 10.1016/j.gee.2020.12.015
Citation: Guping Zhang, Hao Wu, Dongyun Chen, Najun Li, Qingfeng Xu, Hua Li, Jinghui He, Jianmei Lu. A mini-review on ZnIn2S4-Based photocatalysts for energy and environmental application. Green Energy&Environment, 2022, 7(2): 176-204. doi: 10.1016/j.gee.2020.12.015
shu

A mini-review on ZnIn2S4-Based photocatalysts for energy and environmental application

doi: 10.1016/j.gee.2020.12.015

  • College of Chemistry, Chemical Engineering and Materials Science, Collaborative Innovation Center of Suzhou Nano Science and Technology, Soochow University, Suzhou, Jiangsu, 215123, China

Funds:

We gratefully acknowledge the financial support provided by the National Key R&D Program of China (2020YFC1808401), National Natural Science Foundation of China (22078213, 21938006, 51973148, 21776190), cutting-edge technology basic research project of Jiangsu (BK20202012) and the project supported by the Priority Academic Program Development of Jiangsu Higher Education Institutions (PAPD).

  • Received date 09 October 2020, Accepted date 21 December 2020, RevRecd date 27 November 2020, Publish date 29 December 2020,
    Abstract
  • As one of the most attractive and eco-friendly technologies, semiconductor photocatalysis is demonstrated as a potential strategy to solve global energy shortage environmental pollution problems. Regarding semiconductor-based photocatalysts, Zinc indium sulfide (ZnIn2S4) with various morphological structures has become research hotspots owing to its superior visible light absorption, high chemical durability and low cost. Nevertheless, the photocatalytic activity of pristine ZnIn2S4 is unsatisfactory due to limited range of visible light absorption and fast recombination rate of light-induced electrons and holes. Different modification strategies, such as metal deposition, element doping, vacancy engineering and semiconductor combination, have been systematically developed for enhancing the photocatalytic performance of ZnIn2S4 materials. In order to promote further developments of ZnIn2S4 in photocatalytic applications, this mini-review summarizes the progress of recent research works for the construction of highly activity ZnIn2S4-based photocatalysts for the first time. In addition, the typical applications of ZnIn2S4-based photocatalytic materials have been critically reviewed and described such as in hydrogen evolution from photocatalytic water splitting, carbon dioxide photoreduction, and treatment of water pollution. The current challenges and further prospects for the development of ZnIn2S4 semiconductor photocatalysts are finally pointed out.

     

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