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High‐Performance Anion Exchange Membrane Water Electrolyzers Enabled by Highly Gas Permeable and Dimensionally Stable Anion Exchange Ionomers

Fanghua Liu, Kenji Miyatake, Masako Tanabe, Ahmed Mohamed Ahmed Mahmoud, Vikrant Yadav, Lin Guo, Chun Yik Wong, Xian Fang, Toshio Iwataki, Makoto Uchida, Katsuyoshi Kakinuma

2024Advanced Science33 citationsDOIOpen Access PDF

Abstract

Abstract Designing suitable anion exchange ionomers is critical to improving the performance and in situ durability of anion exchange membrane water electrolyzers (AEMWEs) as one of the promising devices for producing green hydrogen. Herein, highly gas‐permeable and dimensionally stable anion exchange ionomers (QC6xBA and QC6xPA) are developed, in which bulky cyclohexyl (C6) groups are introduced into the polymer backbones. QC6 50 BA‐2.1 containing 50 mol% C6 composition shows 16.6 times higher H 2 permeability and 22.3 times higher O 2 permeability than that of QC6 0 BA‐2.1 without C6 groups. Through‐plane swelling of QC6 50 BA‐2.1 decreases to 12.5% from 31.1% (QC6 0 BA‐2.1) while OH − conductivity slightly decreases (64.9 and 56.2 mS cm −1 for QC6 0 BA‐2.1 and QC6 50 BA‐2.1, respectively, at 30 °C). The water electrolysis cell using the highly gas permeable QC6 50 BA‐2.1 ionomer and Ni 0.8 Co 0.2 O in the anode catalyst layer achieves two times higher performance (2.0 A cm −2 at 1.69 V, IR‐included) than those of the previous cell using in‐house ionomer (QPAF‐4‐2.0) (1.0 A cm −2 at 1.69 V, IR‐included). During 1000 h operation at 1.0 A cm −2 , the QC6 50 BA‐2.1 cell exhibits nearly constant cell voltage with a decay rate of 1.1 µV h −1 after the initial increase of the cell voltage, proving the effectiveness of the highly gas permeable and dimensionally stable ionomer in AEMWEs.

Topics & Concepts

IonomerIon exchangeElectrolysisIonAnodeMembraneMaterials sciencePolymerHydrogenConductivityElectrolysis of waterPermeability (electromagnetism)Proton exchange membrane fuel cellChemistryChemical engineeringAnalytical Chemistry (journal)ElectrolyteElectrodePhysical chemistryChromatographyComposite materialOrganic chemistryBiochemistryCopolymerEngineeringFuel Cells and Related MaterialsAdvanced battery technologies researchHybrid Renewable Energy Systems
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