Tuning the core-shell ratio in nanostructured CuS@In2S3 photocatalyst for efficient dye degradation

Mengxin Liu, Alex Sheardy, Gayani Pathiraja, Frank Tukur, Anitha Jayapalan, Jianjun Wei
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引用次数: 1

Abstract

This work reports on a microwave-assisted solvothermal synthesis of CuS@In2S3 core-shell hybridized nanoparticles (Hy-NPs) at different weight ratios (wt%) of CuS to tune the heterojunction optoelectronic properties and evaluate the application for photocatalytic degradation of organic dyes. The photodegradation performance in terms of the efficiency and reaction kinetics shows that the 10 wt% CuS Hy-NPs presents the highest photoactivity in the degradation of two dye species, methylene blue (MB) and methyl orange (MO) when compared to 5 wt% CuS, 15% CuS Hy-NPs samples as well as the pristine CuS or In2S3 NPs. The structural and morphological studies combining the optical bandgap analysis suggest that the CuS amount used in the synthesis step plays an important role to forming the efficient heterojunction interfaces for charge carrier separation to inhibit the recombination of excited electron and hole pairs and the resultant apparent optical bandgap of the Hy-NPs. The 10 wt% CuS@In2S3 core-shell Hy-NPs demonstrate a lower optical band for a wide range visible light absorption and higher photocatalytic activity than that of the CuS NPs, In2S3 NPs, and the 5 wt% CuS, or 15 wt% CuS Hy-NPs. The findings in this work may offer an alternative simple and effective approach to designing and synthesizing metal chalcogenide heterojunctions for improving photocatalytic activity.

调整纳米结构CuS@In2S3光催化剂的核壳比以实现染料的高效降解
这项工作报告了微波辅助溶剂热合成CuS@In2S3不同CuS重量比(wt%)的核壳杂化纳米颗粒(Hy-NPs)来调节异质结的光电性能,并评估其在光催化降解有机染料方面的应用。在效率和反应动力学方面的光降解性能表明,与5wt%CuS、15%CuS-Hy NP样品以及原始CuS或In2S3 NP相比,10wt%CuS-Hi NP在降解亚甲基蓝(MB)和甲基橙(MO)这两种染料时表现出最高的光活性。结合光学带隙分析的结构和形态研究表明,合成步骤中使用的CuS量对形成用于电荷载流子分离的有效异质结界面起着重要作用,以抑制激发的电子和空穴对的复合以及由此产生的Hy-NP的表观光学带隙。10 wt%CuS@In2S3核壳型Hy NPs在宽范围可见光吸收方面表现出比CuS NPs、In2S3 NPs和5wt%CuS或15wt%CuS-Hy NP更低的光带和更高的光催化活性。这项工作的发现可能为设计和合成金属硫族化合物异质结以提高光催化活性提供一种简单有效的替代方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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