膜
电解
电解水
材料科学
纳米技术
化学
业务
电极
电解质
生物化学
物理化学
作者
Yun Chao Lei,Jie Dong,Zhiyi Peng,Longlu Wang,Jianmei Chen,Dafeng Yan
摘要
), thereby facilitating hydrogen generation in acidic environments and oxygen evolution under alkaline conditions. Due to their unique characteristics, BPMs exhibit remarkable potential for application in water electrolysis (WE), attracting increasing attention in recent research endeavors. Based on recent experimental findings, several innovative strategies have been proposed to enhance the performance of bipolar membrane water electrolysis (BPMWE) systems. These strategies encompass optimizing polymer chemistry for both the AEL and CEL, engineering asymmetric membrane architectures, integrating catalysts for water dissociation, designing advanced 3D structures at the bipolar interface, and employing cutting-edge fabrication methods. This review offers critical insights and perspectives that are anticipated to propel the advancement of BPM technology in the field of water electrolysis.
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