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光生载流子在染料-石墨烯-SnO2 复合材料中的转移对于高效可见光光催化至关重要。

Photogenerated carriers transfer in dye-graphene-SnO2 composites for highly efficient visible-light photocatalysis.

机构信息

School of Physics Science and Technology, Yangzhou University , Yangzhou 225002, P.R. China.

出版信息

ACS Appl Mater Interfaces. 2014 Jan 8;6(1):613-21. doi: 10.1021/am4047014. Epub 2013 Dec 10.

Abstract

The visible-light-driven photocatalytic activities of graphene-semiconductor catalysts have recently been demonstrated, however, the transfer pathway of photogenerated carriers especially where the role of graphene still remains controversial. Here we report graphene-SnO2 aerosol nanocomposites that exhibit more superior dye adsorption capacity and photocatalytic efficiency compared with pure SnO2 quantum dots, P25 TiO2, and pure graphene aerosol under the visible light. This study examines the origin of the visible-light-driven photocatalysis, which for the first time links to the synergistic effect of the cophotosensitization of the dye and graphene to SnO2. We hope this concept and corresponding mechanism of cophotosensitization could provide an original understanding for the photocatalytic reaction process at the level of carrier transfer pathway as well as a brand new approach to design novel and versatile graphene-based composites for solar energy conversion.

摘要

石墨烯-半导体催化剂的可见光驱动光催化活性最近已经得到证实,然而,光生载流子的转移途径,特别是石墨烯的作用仍然存在争议。在这里,我们报告了石墨烯-SnO2 气溶胶纳米复合材料,与纯 SnO2 量子点、P25 TiO2 和纯石墨烯气溶胶相比,在可见光下表现出更高的染料吸附能力和光催化效率。本研究探讨了可见光驱动光催化的起源,这首次将染料和石墨烯对 SnO2 的协同共敏化作用与该反应联系起来。我们希望这一共敏化概念和相应的机制能够为载流子转移途径层面的光催化反应过程提供一个全新的认识,并为设计用于太阳能转换的新型多功能基于石墨烯的复合材料提供一种新方法。

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