光催化
原位
双功能
离子交换
产品(数学)
化学
离子
还原(数学)
核化学
无机化学
催化作用
有机化学
数学
几何学
作者
Xiaoming Deng,Zhi Wu,Bolin Yin,Lei Jia,Zhenfeng Bian,Hexing Li
标识
DOI:10.1021/acsestengg.4c00941
摘要
Remediating industrial wastewater containing Cr(VI) is crucial to addressing environmental and health challenges posed by heavy-metal pollution. However, the product Cr(III) may cause secondary pollution and even photocatalyst poisoning. In this study, we developed a two-dimensional bifunctional photocatalyst, K2n[Sn3S7]n (2D K-SnS), to achieve Cr(VI) reduction and Cr(III) sequestration simultaneously via photocatalysis under visible-light irradiation and ion-exchange conditions, respectively. A reduction efficiency of 30 ppm Cr(VI) could reach up to 99.3%. The product Cr(III) could potentially be stored inside the [Sn3S7]n2n– framework by in situ ion exchange with the filled K+; this was followed by recycling through reversible ion exchange in KCl solution with the total Cr recycling rate reaching nearly 90%. Furthermore, the photocatalyst demonstrated excellent stability, retaining high activity (as measured by a total Cr removal efficiency above 95%) after reversible ion-exchange. The structural and functional attributes of 2D K-SnS ensure efficient Cr(VI) detoxification while minimizing secondary pollution. Ultimately, this study presents a sustainable strategy for treating industrial wastewater via combining heavy-metal ion removal with resource recovery. The study’s findings highlight the potential uses of photocatalytic materials in practical environmental applications.
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