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Integrated Reference Electrodes in Anion-Exchange-Membrane Electrolyzers: Impact of Stainless-Steel Gas-Diffusion Layers and Internal Mechanical Pressure

Qiucheng Xu, Sebastian Z. Oener, Grace Lindquist, Hao Jiang, Chunzhong Li, Shannon W. Boettcher

2020ACS Energy Letters138 citationsDOIOpen Access PDF

Abstract

Alkaline-membrane electrolyzers operating in pure water might provide scalable low-cost H2 production but currently lag in performance and durability compared to commercial technologies. Typically, membrane-electrode assemblies (MEAs) are optimized in electrolyzers by changing one parameter at a time and assessing the resulting system performance via two-electrode polarization and impedance measurements. These approaches are limited in their ability to assign performance changes and durability to specific electrodes or processes. We integrate a reference electrode with the MEA to separate anode and cathode responses in both polarization and impedance measurements. We illustrate the power of the approach by showing how the fiber diameter of stainless-steel gas-diffusion layers (GDLs) affects performance solely at the anode, while changing the thickness of the cathode GDL simultaneously affects the performance of the anode and cathode due to changes in internal pressure from mechanical compression. This finding was obscured in conventional two-electrode measurements. The work thus guides both high-performance alkaline-membrane water-electrolyzer development and illustrates a useful strategy to study structure-activity relationships in the MEA.

Topics & Concepts

AnodeDurabilityCathodeElectrodeMaterials sciencePolarization (electrochemistry)Gaseous diffusionMembrane electrode assemblyConcentration polarizationComposite materialReference electrodeMembraneChemistryElectrolyteBiochemistryPhysical chemistryAdvanced battery technologies researchHybrid Renewable Energy SystemsFuel Cells and Related Materials
Integrated Reference Electrodes in Anion-Exchange-Membrane Electrolyzers: Impact of Stainless-Steel Gas-Diffusion Layers and Internal Mechanical Pressure | Litcius