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BiOCl表面掺杂石墨烯用于可见光下高效光催化胺偶联

张小菲 李中军 徐山浩 王志远 何龙 黄天成 徐永明 卞玉翠 李一珂 陈海军

物理化学学报2026,Vol.42Issue(5):97-109,13.
物理化学学报2026,Vol.42Issue(5):97-109,13.DOI:10.1016/j.actphy.2025.100202

BiOCl表面掺杂石墨烯用于可见光下高效光催化胺偶联

Surface doping of graphene into BiOCl for efficient photocatalytic amine coupling under visible light

张小菲 1李中军 1徐山浩 1王志远 1何龙 1黄天成 1徐永明 2卞玉翠 1李一珂 1陈海军1

作者信息

  • 1. 郑州大学化学学院,河南 郑州 450001
  • 2. 河南中烟工业有限责任公司技术中心,河南 郑州 450000
  • 折叠

摘要

Abstract

The carbon-doped BiOCl was prepared using glucose as a carbon source.The carbon dopants are mainly concentrated in the surface or shallow lattice of the crystals with partial bonded to oxygen atoms.The conversion of benzylamine for its self-coupling(>99%)is boosted by 12 times over carbon-doped BiOCl that of bare BiOCl under visible light at room temperature using molecular oxygen as a green oxidant.The doped catalyst shows good functional groups toleration of amines and facet-dependent photocatalytic activity.Comprehensive characterizations verify that doping of carbon causes the formation of doping energy level in the original band gap of crystal,which widens the absorption range of BiOCl to visible light and decreases its work function.Meanwhile,the doping of carbon also enhances the electric field in the BiOCl and the most efficient dopant is the single and bilayer graphene which can capture the conduction band electrons that are excited to higher energy levels following the electron-hole separation.This retards the electrons recombination with holes and improves the separation efficiency of photo-generated carriers.Moreover,the O2 activation is enhanced.This work provides a reference for the rational design of photocatalysts and the realization of high-efficiency and directional organic conversion.

关键词

光催化/选择性氧化/亚胺合成/碳掺杂/卤氧化铋

Key words

Photocatalysis/Selective oxidation/Imine synthesis/Carbon doping/Bismuth oxyhalide

分类

化学化工

引用本文复制引用

张小菲,李中军,徐山浩,王志远,何龙,黄天成,徐永明,卞玉翠,李一珂,陈海军..BiOCl表面掺杂石墨烯用于可见光下高效光催化胺偶联[J].物理化学学报,2026,42(5):97-109,13.

基金项目

作者感谢国家自然科学基金(22102154)和中国烟草总公司重点研发项目(110202202026)提供的资金支持. (22102154)

物理化学学报

1000-6818

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