Constructed 2D sandwich-like layer WO 3 /Ti 3 C 2 /ZnIn 2 S 4 Z-scheme heterojunction by chemical bond for effective photocatalytic hydrogen production

Photocatalytic water-splitting has gained significant global attention in recent years. However, identifying effective photocatalysts remains challenging due to the rapid recombination of photoinduced charge carriers. In this study, two-dimensional (2D) sandwich-like layer WO /Ti C /ZnIn S photocata...

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Published in:Journal of colloid and interface science 2024-12, Vol.682, p.403
Main Authors: Wu, Hui, Lou, Zengxin, Kang, Kai, Zhang, Chunjuan, Ji, Xinyue, Chu, Hanqiao, Wei, Shuoheng, Xu, Wenzhe, Wang, Guanyun, Pan, Junkai, Liu, Juan, Bao, Yongchao
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Language:English
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Summary:Photocatalytic water-splitting has gained significant global attention in recent years. However, identifying effective photocatalysts remains challenging due to the rapid recombination of photoinduced charge carriers. In this study, two-dimensional (2D) sandwich-like layer WO /Ti C /ZnIn S photocatalysts were successfully fabricated using a simple anaerobic solvothermal process. The 2D Z-scheme heterojunction enhances rapid charge transport via TiS or TiOW bonds, serving as efficient charge transfer channels and minimizing the distance for interfacial photocarrier transfer. Consequently, the hydrogen production rate of 20 % WO /Ti C /ZnIn S composite reaches 7.39 mmol·g ·h , which is 3.5 and 7.1 times higher than that of 20 % Ti C /ZnIn S and pure ZnIn S respectively. Furthermore, the hydrogen production rate of 20 % WO /Ti C /ZnIn S composite reaches 2.54 mmol·g ·h without the use of sacrificial agents. This work paves the way for designing 2D sandwich-like Z-scheme heterostructures through interfacial chemical bonds.
ISSN:1095-7103