电催化剂
氧化还原
电子转移
电解
材料科学
电解质
纳米技术
催化作用
电化学
多相催化
电极
氧还原反应
化学
基质(水族馆)
析氧
反应机理
作者
Gang Liu,Meiyu Zhang,Jia-Yong Weng,Yulu Chen,Yulu Chen,Xianqiang Huang,Yifa Chen,Yifa Chen,Ya‐Qian Lan
摘要
Heterogeneous indirect electrocatalysis has emerged as a promising electrochemical transformation technology, demonstrating broad application potential in diverse molecular conversions. By utilizing heterogeneous redox mediators as electron shuttles or catalysts to promote efficient electron transfer and substrate activation, this approach effectively addresses critical challenges inherent in conventional electrolysis technologies such as high overpotential, low selectivity, electrode deactivation, and difficulty in catalyst recovery. Although novel indirect electrocatalysis systems mediated by heterogeneous redox media have been continuously developed, related comprehensive reviews are still rarely reported. Therefore, this review comprehensively summarizes the design concepts, system compositions (e.g., reactor, electrode, electrolyte and redox mediators), the type of heterogeneous redox mediators (e.g., foams, polymers, COFs, MOFs and POMOFs), and relevant catalytic applications of heterogeneous indirect electrocatalysis. Particular emphasis is placed on discussing the selection criteria, reaction mechanism and performance optimization strategies. Meanwhile, the characteristics, challenges, and perspectives of heterogeneous indirect electrocatalysis are reviewed, and their unsolved problems and possible developments are discussed.
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