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海水电解中催化剂抗氯离子腐蚀性能研究进展

邓恺元刘柯雷蕾黎挺挺汪德高

化学试剂2026，Vol.48Issue(5)：1-12,12.

化学试剂2026，Vol.48Issue(5)：1-12,12.DOI:10.13822/j.cnki.hxsj.2026.0046

海水电解中催化剂抗氯离子腐蚀性能研究进展

Progress in Chloride Corrosion Resistance of Catalysts for Seawater Electrolysis

邓恺元 ¹刘柯 ²雷蕾 ³黎挺挺 ⁴汪德高⁵

作者信息

1. 宁波大学材料科学与化学工程学院,浙江宁波 315211||中国科学院宁波材料技术与工程研究所浙江省数据驱动高安全能源材料及应用重点实验室宁波市特种能源材料与化学重点实验室先进核能材料实验室,浙江宁波 315201
2. 中国科学院宁波材料技术与工程研究所浙江省数据驱动高安全能源材料及应用重点实验室宁波市特种能源材料与化学重点实验室先进核能材料实验室,浙江宁波 315201||中国科学院大学材料科学与光电技术学院,北京 101408
3. 中国科学院宁波材料技术与工程研究所浙江省生物基高分子材料重点实验室高分子与复合材料实验室,浙江宁波 315201
4. 宁波大学材料科学与化学工程学院,浙江宁波 315211
5. 中国科学院宁波材料技术与工程研究所前沿交叉科学研究中心,浙江宁波 315201||中国科学院大学材料科学与光电技术学院,北京 101408
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摘要

Abstract

Seawater electrolysis is a cost-effective and environmentally sustainable approach for large-scale green hydrogen production that reduces reliance on freshwater resources.However,challenges such as anode corrosion,competitive chlorine evolution,and catalyst deactivation-primarily caused by the high chloride ion concentration(～0.5 mol/L)in seawater-substantially reduce electrolysis efficiency,shorten equipment lifetime,and limit industrial deployment.Existing studies have predominantly focused on classifying catalyst types or exploring isolated anticorrosion strategies,with limited comprehensive analysis of the dynamic mechanisms underlying chloride ion-induced degradation and insufficient attention to the integrative compatibility between catalyst design and the overall electrolysis system.This review examined the fundamental scientific challenges and thermodynamic competition in seawater electrolysis,with particular emphasis on the dual challenges of chloride ion corrosion and calcium-magnesium ion deposition.It further delineated three principal chloride ion-induced degradation pathways:active-site poisoning,lattice structure disruption,and metal corrosion coupled with dissolution.Based on the mechanisms and targets of chloride ion corrosion,an innovative anticorrosion catalyst design framework was proposed,including three categories:active regulation,passive defense,and holistic system adaptation.The anticorrosion mechanisms were systematically elucidated by integrating in situ characterization techniques with theoretical modeling.Finally,this review compared the performance of simulated and real seawater systems,outlines future directions for catalyst development,and provides a theoretical foundation and technical guidance for the targeted design and industrial application of seawater electrolysis catalysts.

关键词

海水电解/电催化剂/氯离子腐蚀/动态吸附调控/表面屏蔽

Key words

seawater electrolysis/electrocatalyst/chloride ion corrosion/dynamic adsorption regulation/surface shielding

分类

化学化工

引用本文复制引用

邓恺元,刘柯,雷蕾,黎挺挺,汪德高..海水电解中催化剂抗氯离子腐蚀性能研究进展[J].化学试剂,2026,48(5):1-12,12.

基金项目

国家自然科学基金项目(22106166) （22106166）

中国博士后科学基金项目(2022M723253). （2022M723253）

化学试剂

ISSN：0258-3283

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