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Understanding and resolving the heterogeneous degradation of anion exchange membrane water electrolysis for large-scale hydrogen production

Jia Lei, Ziyi Wang, Yunze Zhang, Min Ju, Hao Fei, Siyuan Wang, Chengxi Fu, Xinchang Yuan, Qiang Fu, Muhammad Usman Farid, Hui Kong, Alicia Kyoungjin An, Runxu Deng, Feng Liu, Jian Wang

2024Carbon Neutrality51 citationsDOIOpen Access PDF

Abstract

Abstract Anion exchange membrane water electrolysis (AEMWE) has seen rapid advancements over the past decade due to its promising role in green hydrogen production. Ensuring long-term functionality is as crucial as optimizing performance to achieve commercial viability and industrial integration. However, few studies have systematically discussed the degradation issues of this technology. Therefore, a thorough understanding of AEMWE degradation is needed to guide the design, assembly, operation, and maintenance of the device over its lifetime. To address this gap, this review systematically overviewed the heterogeneous degradation of AEMWE across different material and interface levels, focusing on several key components including catalysts, ionomers, membranes, and gas diffusion layers. The influences of these components and their interfaces on the catalytic efficiency, active site density, and mass and electron transfer capabilities were discussed. Moreover, the impacts of operation conditions, including temperature, electrolyte composition, and clamping pressure, on the stable operation of AEMWE were assessed. Accordingly, current mitigation strategies to resolve these degradation phenomena were rigorously evaluated. By offering insights into optimizing operations, designing materials, and improving assessment protocols for AEMWE, this work will contribute to enhancing its stability for large-scale hydrogen production.

Topics & Concepts

Hydrogen productionElectrolysisDegradation (telecommunications)HydrogenElectrolysis of waterIonScale (ratio)Ion exchangeChemistryEnvironmental scienceChemical engineeringComputer scienceEngineeringPhysicsElectrodeElectrolyteOrganic chemistryPhysical chemistryQuantum mechanicsTelecommunicationsHybrid Renewable Energy SystemsHydrogen Storage and MaterialsFuel Cells and Related Materials
Understanding and resolving the heterogeneous degradation of anion exchange membrane water electrolysis for large-scale hydrogen production | Litcius