电子层面的机理洞察：铈掺杂对可见光照射下双酚A效率降解增强的影响

Electron-Level Mechanistic Insights into Ce Doping for Enhanced Efficiency Degradation of Bisphenol A under Visible Light Irradiation.

作者信息

Zeng Qi, Wang Chu-Ya, Xu Bo-Xing, Han Jianyu, Fang Xin, Zhu Guangcan

机构信息

School of Energy and Environment, Southeast University, Nanjing 210096, China.

出版信息

Nanomaterials (Basel). 2022 Apr 18;12(8):1382. doi: 10.3390/nano12081382.

DOI:10.3390/nano12081382

PMID:35458090

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9027963/

Abstract

Bismuth oxybromide (BiOBr), with its special layered structure, is known to have potential as a visible-light-driven photocatalyst. However, the rapid recombination and short lifetime of the photogenerated carriers of BiOBr restrict its photocatalytic efficiency for the degradation of organic pollutants. Given the similar ionic size of Ce and Bi, Ce atoms might be easily introduced into the crystal of BiOBr to tailor its band structure. In this study, Ce doped BiOBr (Ce-BiOBr) samples with different percentages of Ce contents were prepared via a hydrothermal method. The intrinsic photocatalytic efficiency of Ce-BiOBr for the degradation of bisphenol A (BPA) was 3.66 times higher than that of pristine BiOBr under visible light irradiation. The mechanism of Ce-doping modification for the enhanced photocatalytic performance was demonstrated based on a series of experiments and DFT calculation. The narrowed bandgap, the enhanced charge separation efficiency and Ce-doping energy level contributed to the remarkable photocatalytic performance of Ce-BiOBr.

摘要

溴氧化铋（BiOBr）具有特殊的层状结构，已知具有作为可见光驱动光催化剂的潜力。然而，BiOBr光生载流子的快速复合和短寿命限制了其对有机污染物降解的光催化效率。鉴于Ce和Bi的离子尺寸相似，Ce原子可能很容易引入BiOBr晶体中以调整其能带结构。在本研究中，通过水热法制备了具有不同Ce含量百分比的Ce掺杂BiOBr（Ce-BiOBr）样品。在可见光照射下，Ce-BiOBr对双酚A（BPA）降解的本征光催化效率比原始BiOBr高3.66倍。基于一系列实验和密度泛函理论（DFT）计算，证明了Ce掺杂改性增强光催化性能的机制。带隙变窄、电荷分离效率提高以及Ce掺杂能级促成了Ce-BiOBr卓越的光催化性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73eb/9027963/e8537ebebada/nanomaterials-12-01382-g001.jpg

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电子层面的机理洞察：铈掺杂对可见光照射下双酚A效率降解增强的影响

Electron-Level Mechanistic Insights into Ce Doping for Enhanced Efficiency Degradation of Bisphenol A under Visible Light Irradiation.

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