在具有增强光催化芬顿氧化性能的ZnFeO表面外延生长BiOBr(110)薄膜的制备、表征及应用

Preparation, Characterization and Application of Epitaxial Grown BiOBr (110) Film on ZnFeO Surface with Enhanced Photocatalytic Fenton Oxidation Properties.

作者信息

Zhang Zheng, Zhang Yan, Li Zhuo, Yang Xueyuan, Yang Xiaolong, Peng Yanhua, Yu Jianqiang

机构信息

School of Chemistry and Chemical Engineering, Qingdao University, Qingdao 266071, China.

出版信息

Nanomaterials (Basel). 2022 Apr 28;12(9):1508. doi: 10.3390/nano12091508.

DOI:10.3390/nano12091508

PMID:35564217

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9105623/

Abstract

A novel BiOBr photocatalyst was epitaxially grown in situ onto the surface of ZnFeO, a ferroelectric material with a strong polarization effect. The formatted BiOBr/ZnFeO composite (BOB/ZFO) showed excellent photocatalytic degradation performance of tetracycline antibiotics (TCs). One of the composites with ZnFeO content of 10% (BOB/ZFO-10) showed the best properties; the degradation efficiency of TCs upon visible light irradiation for 180 min was 99.2%, which was 3.58 times higher than that of pure phase BiOBr. The functions of ZnFeO are assumed to be such that the addition of this ferroeletric material not only regulated the spontaneous polarization of BiOBr in the process of synthesis, but also resulted in the construction of Z-scheme heterostructures due to the appropriate staggered band structure of BiOBr and ZnFeO. In the presence of ferroelectric material ZnFeO, the local structure of BiOBr may be distorted accordingly, resulting in preferential growth of a (110) crystal facet of BiOBr and enhancement of spontaneous polarization, which promotes the efficient separation of photogenerated electron-hole pairs of ZnFeO and BiOBr, and therefore enhances the redox capacity of the photocatalytic degradation of organic pollutants.

摘要

一种新型的溴氧化铋（BiOBr）光催化剂原位外延生长在具有强极化效应的铁电材料氧化锌铁（ZnFeO）表面。制备的BiOBr/ZnFeO复合材料（BOB/ZFO）对四环素类抗生素（TCs）表现出优异的光催化降解性能。其中氧化锌铁含量为10%的复合材料（BOB/ZFO-10）性能最佳；可见光照射180分钟时，TCs的降解效率为99.2%，比纯相溴氧化铋高3.58倍。氧化锌铁的作用被认为是，这种铁电材料的加入不仅在合成过程中调节了溴氧化铋的自发极化，而且由于溴氧化铋和氧化锌铁适当的交错能带结构，导致了Z型异质结构的构建。在铁电材料氧化锌铁存在的情况下，溴氧化铋的局部结构可能会相应地发生畸变，导致溴氧化铋（110）晶面的择优生长和自发极化增强，从而促进氧化锌铁和溴氧化铋光生电子-空穴对的有效分离，进而提高光催化降解有机污染物的氧化还原能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6f90/9105623/02a0ecd64e7e/nanomaterials-12-01508-g001.jpg

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在具有增强光催化芬顿氧化性能的ZnFeO表面外延生长BiOBr(110)薄膜的制备、表征及应用

Preparation, Characterization and Application of Epitaxial Grown BiOBr (110) Film on ZnFeO Surface with Enhanced Photocatalytic Fenton Oxidation Properties.

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