Ultrathin BiOCl-OV/CoAl-LDH S-scheme heterojunction for efficient photocatalytic peroxymonosulfate activation to boost Co (IV)=O generation

异质结 光催化 化学 降级(电信) 光化学 电子转移 可见光谱 化学工程 催化作用 材料科学 无机化学 光电子学 有机化学 计算机科学 电信 工程类
作者
Yi Zhong,Shiqing Ma,Daimei Chen,Yanmei Feng,Wenyang Zhang,Wenyang Zhang,Sijia Sun,Guocheng Lv,Weibin Zhang,Weibin Zhang,Jin Z. Zhang,Hao Ding
出处
期刊:Water Research [Elsevier BV]
卷期号:258: 121774-121774 被引量:122
标识
DOI:10.1016/j.watres.2024.121774
摘要

Sustainable and rapid production of high-valent cobalt-oxo (Co(IV)=O) species for efficiently removing organic pollutants is challenging in permoxymonosulfate (PMS) based advanced-oxidation-processes (AOPs) due to the limitation of the high 3d-orbital electronic occupancy of Co and slow conversion from Co(III) to Co(II). Herein, S-scheme BiOCl-OV/CoAl-LDH heterojunction were constructed by ultrathin BiOCl with the oxygen-vacancy (OV) self-assembled with ultrathin CoAl-LDH. OV promoted the formation of charge transfer channel (Bi-O-Co bonds) at the interface of the heterojunction and reduced electron occupation of the Co 3d-orbital to facilitate the generation of Co(IV)=O in the BiOCl-OV/CoAl-LDH/PMS/Visible-light system. S-scheme heterojunction accelerated the photogenerated electrons to allow rapid conversion of Co(III) to Co(II), promoting the fast two-electron transfer from Co(II) to Co(IV)=O. Consequently, the developed BiOCl-OV/CoAl-LDH/PMS/Visible-light system showed excellent degradation efficiency for most of organic pollutions, and exhibited very high removal capability for the actual industrial wastewater. This study provides a new insight into the evolution of Co(IV)=O and the coordinative mechanism for photocatalysis and PMS activation.
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