电催化剂
电化学
氯
材料科学
拉曼光谱
析氧
阳极
无机化学
氧气
腐蚀
化学
化学工程
反应机理
光化学
催化作用
抵抗
光谱学
作者
Ying Gao,Mingming Yan,Hao Zhong,Mengyang Li,JunWei Yao,Bin Zhang
标识
DOI:10.1002/anie.202519520
摘要
Abstract Chlorine (Cl)‐involved anodic reactions are essential for green manufacturing, whereas electrocatalysts suffer from deactivation due to Cl corrosion. Here, a Co 3 O 4 /SnO 2 heterostructure with a shortened Co–O bond is designed to increase structural stability. The combined results of electrochemical measurements and in situ Raman spectroscopy reveal that the deactivation of Co 3 O 4 involves the coordination of Cl to Co sites due to the dynamic evolution of lattice oxygen during the lattice oxygen mechanism (LOM). The compressed Co–O bond of Co 3 O 4 /SnO 2 leads to a restrained LOM, thus resisting Cl‐triggered corrosion. Therefore, Co 3 O 4 /SnO 2 not only realizes the gram‐scale synthesis of epoxides through the Cl‐mediated method via stable and continuous electrocatalysis processes but is also suitable for other anodic chlorination reactions with enhanced durability. This work provides a facile way to prevent Cl corrosion by hindering LOM.
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