Zhilong Zhang, Rong Wu, Jianyong Yue, YaLi Zhu, JiaLei Hui
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引用次数: 0
摘要
在这项工作中,以空心 MoSe2 纳米球为结构设计基础,制备了空心 MoSe2/CuS II 型异质结。紫外-可见-近红外扩散吸收测试表明,MoSe2/CuS 具有宽光谱吸收特性,可将光响应范围从紫外-可见光扩展到近红外。中空的 MoSe2/CuS 核壳结构提高了光源利用率和界面面积。MoSe2/CuS 的宽吸收能力可促进光催化过程。由于 MoSe2/CuS 的电化学阻抗低于 MoSe2,因此 MoSe2/CuS 具有良好的光生载流子分离效率。得益于多级三维中空纳米球的协同促进效应和 II 型异质结中显著的空间电荷区,MoSe2/CuS 在 Xe(350 W)宽带光谱光照射下,120.0 min 内的 RhB 降解效率达到 96.0%。研究了中空 MoSe2/CuS 核壳结构的光催化机理。这项研究为应用宽光谱半导体异质结解决环境问题提供了新的视角。
Designing a hollow MoSe2/CuS nanospheres type-II heterojunction photocatalyst with superior UV–vis-NIR absorption for photocatalytic degradation of organic pollutants
In this work, a hollow MoSe2/CuS type-II heterojunction was fabricated using hollow MoSe2 nanospheres as the basis for structural design. UV–Vis–NIR diffuse absorption tests show that MoSe2/CuS has a broad spectral absorption to extend the optical response range from UV–Vis to NIR. The light source utilization rate and interfacial area are increased by the hollow MoSe2/CuS core–shell structure. The broad absorption ability of MoSe2/CuS can facilitate the photocatalysis process. As the electrochemical impedance of MoSe2/CuS is lower than that of the MoSe2, MoSe2/CuS has a good photogenerated carrier separation efficiency. Benefiting from the synergistic facilitation effect of the multi-level 3D hollow nanosphere and the significant space charge region in type-II heterojunction, the RhB degradation efficiency of MoSe2/CuS reached 96.0% in 120.0 min under Xe (350 W) broadband spectrum light irradiation. The photocatalysis mechanism of the hollow MoSe2/CuS core–shell structure was investigated. This work provides an insight into the application of broad spectrum semiconductor heterojunctions to solve environmental problems.
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