Effect of Rare-Earth Compounds on the Photocatalytic Performance of ZnIn2S4: A Review

Dongsheng Jia, Ying Li
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Abstract

Semiconductor photocatalysis is considered one of the efficient and clean environmental technologies in the treatment of organic dye wastewater. Indium zinc sulfide (ZnIn2S4) is favored among many photocatalysts because of its narrow-forbidden bandwidth, good visible light absorption properties, suitable conduction and valence band positions, high chemical stability, low cost, easy preparation and low toxicity. However, indium zinc sulfide (ZnIn2S4) still faces the disadvantages of low visible light utilization and high photogenerated carrier complexation rate. In this paper, we introduce rare-earth ion doping and heterojunction of rare-earth oxides with ZnIn2S4 to improve photocatalytic efficiency, and we also review the current research status and development prospects of indium zinc sulfide in recent years.
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稀土化合物对 ZnIn2S4 光催化性能的影响:综述
半导体光催化技术被认为是处理有机染料废水的高效清洁环保技术之一。在众多光催化剂中,硫化铟锌(ZnIn2S4)因其窄禁带宽、良好的可见光吸收特性、合适的导带和价带位置、高化学稳定性、低成本、易制备和低毒性而备受青睐。然而,硫化铟锌(ZnIn2S4)仍然面临着可见光利用率低、光生载流子复合率高等缺点。本文介绍了稀土离子掺杂、稀土氧化物与 ZnIn2S4 异质结等提高光催化效率的方法,并综述了近年来硫化铟锌的研究现状和发展前景。
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