In-situ fabrication of BiOCl/OVs-BiPO_(4)heterojunctions with enhanced photocatalytic destruction performance  

作　　者：Zheng-Dong Xu Xing-Yun Jin Jun-Bo Zhong Min-Jiao Li Shu-Lin Zhang 

机构地区：[1]College of Chemical Engineering,Sichuan University of Science and Engineering,Zigong,643000,China

出　　处：《Rare Metals》2025年第1期373-388,共16页稀有金属(英文版)

基　　金：supported by Sichuan University of Science and Engineering(No.2021RC26);Chemical Synthesis and Pollution Control Key Laboratory of Sichuan Province(No.CSPC202105).

摘　　要：In this work,BiOCl/OVs-BiPO_(4)heterojunction photocatalysts were successfully in-situ prepared by treating of BiPO_(4)with dilute hydrochloric acid(HCl)under hydrothermal condition.Systematically characterization results confirm that BiOCl/BiPO_(4)heterojunctions have been successfully in-situ constructed and oxygen vacancies(OVs)are significantly increased.The OVs on the surface of the BiOCl/OVS-BiPO_(4)heterojunctions photocatalyst and the interface electric field at the interface of the heterojunctions effectively accelerate the separation and migration of photogenerated carriers,and the surface OVs provide more sites for adsorption and reaction.Consequently,BiOCl/OVs-BiPO_(4)heterojunction photocatalysts have higher separation rate of photoexcited e-/h+pairs and exhibit ascendant photocatalytic degradation activity.Electron paramagnetic resonance(EPR)technology and free radical capture experiments give strong evidence that·O2-exists in the reaction system and is the leading species during the degradation process.The experimental results reveal that the degradation efficiency of rhodamine B(RhB)over BiPO_(4)treated with 3 ml of 0.1%dilute hydrochloric acid(3HCl-BPO)is 2.42 times of that over the reference BiPO_(4).After ultraviolet(UV)light illumination for 20 min,the destruction degree of RhB on the 3HCl-BPO sample reaches 99%.Moreover,the degradation rate of tetracycline(TC)is also obviously improved over 3HCl-BPO compared with that on the reference BiPO_(4)after 40 min exposure to ultraviolet light.The excellent stability of the sample was demonstrated by five cycles.A reasonable enhancement mechanism for BiOCl/OVs-BiPO_(4)heterojunctions was proposed to elucidate the boosted photocatalytic performance.This work offers a facile and reliable reference to design high performance BiPO_(4)-based photocatalysts for environment purification.

关 键 词：PHOTOCATALYSIS BiPO_(4) HETEROJUNCTIONS Oxygen vacancies(OVs) Separation of carriers 

分 类 号：O64[理学—物理化学]