联轴节(管道)
生化工程
纳米技术
催化作用
化学
偶联反应
基质(水族馆)
甲烷
化学反应
能源消耗
多相催化
材料科学
化学工业
钥匙(锁)
化学过程
计算机科学
生产(经济)
工艺工程
作者
Yuxiang Shen,Wen-Wen Zhang,Shaowei Zhang,Xiaomin Zhang,Houfu Lv,Yuefeng Song,Lin Zhu,Heng Zheng,Guoxiong Wang,Yuxiang Shen,Wen-Wen Zhang,Shaowei Zhang,Xiaomin Zhang,Houfu Lv,Yuefeng Song,Lin Zhu,Heng Zheng,Guoxiong Wang
标识
DOI:10.1002/anie.202523537
摘要
Abstract The chemical industry serves as a cornerstone of modern societal development, yet it is also associated with substantial energy consumption and high emissions. Electro‐thermal coupling catalysis, an emerging frontier at the intersection of thermocatalysis and electrocatalysis, offers a promising solution. The coupling of electrocatalytic reactions can solve the problems of slow reaction rates, substrate deactivation of catalysts, and difficult separation of products, and overcome thermodynamic and kinetic barriers inherent to traditional thermocatalytical reactions. This minireview highlights the state of the art in electro‐thermal coupling catalysis and the significant applications for nitrogen fixation, propane dehydrogenation, alcohol reforming, and methane and carbon dioxide conversion. Furthermore, we discuss the key challenges and future prospects that these integrated systems must address to advance toward technological maturation and commercial implementation, with the aim of providing insights for the development of next‐generation sustainable chemical processes.
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