通过在 IV 族和 III-V 族二元化合物的二维纳米片中进行吸附原子修饰设计先进的光催化系统。

Design of Advanced Photocatalysis System by Adatom Decoration in 2D Nanosheets of Group-IV and III-V Binary Compounds.

作者信息

Jin Hao, Dai Ying, Huang Bai-Biao

机构信息

College of Physics and Energy, Shenzhen University, Shenzhen 518060, People's Republic of China.

School of Physics, State Key Laboratory of Crystal Materials, Jinan, 250100, People's Republic of China.

出版信息

Sci Rep. 2016 Mar 17;6:23104. doi: 10.1038/srep23104.

DOI:10.1038/srep23104

PMID:26983908

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4794804/

Abstract

Searching for novel photocatalysts is one of the most important topic in photocatalytic fields. In the present work, we propose a feasible approach to improve the photocatalytic activities of 2D bilayers through surface decoration, i.e. hydrogenation, halogenation, and hydroxylation. Our investigations demonstrate that after surface modification, the optical adsorption expands into the visible region, while a built-in electric field is induced due to the interlayer coupling, which can promote the charge separation for photogenerated electron-hole pairs. Our results show that the indirect-direct band gap transition of SiC, SnC, BN and GaN can be realised through adatom decoration. Furthermore, the surface-modified 2D bilayers have suitable VBM and CBM alignments with the oxidation and reduction potentials for water splitting, suggesting powerful potentials in energy and environmental applications.

摘要

寻找新型光催化剂是光催化领域最重要的课题之一。在本工作中，我们提出了一种可行的方法，即通过表面修饰（即氢化、卤化和羟基化）来提高二维双层膜的光催化活性。我们的研究表明，表面修饰后，光吸收扩展到可见光区域，同时由于层间耦合诱导产生内建电场，这可以促进光生电子-空穴对的电荷分离。我们的结果表明，通过吸附原子修饰可以实现SiC、SnC、BN和GaN的间接-直接带隙跃迁。此外，表面修饰的二维双层膜具有与水分解的氧化和还原电位相匹配的合适价带顶（VBM）和导带底（CBM）排列，这表明其在能源和环境应用中具有巨大潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3997/4794804/49db723b6bab/srep23104-f1.jpg

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通过在 IV 族和 III-V 族二元化合物的二维纳米片中进行吸附原子修饰设计先进的光催化系统。

Design of Advanced Photocatalysis System by Adatom Decoration in 2D Nanosheets of Group-IV and III-V Binary Compounds.

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