(Digital Presentation) Nickel Iron Layered Double Hydroxide As a Promising Anode for AEM Water Electrolyzer Presenting High Performance and Durability

Abstract

Anion exchange membrane (AEM) water electrolyzers is an attractive alternative approach for green hydrogen production. The alkaline environment allows the use of non-PGM catalysts and, based on recent research in catalysts and membranes, may soon challenge the established proton exchange membrane water electrolyzers1,2. Transition metal-based catalysts have attracted much attention because they provide an excellent oxygen evolution reaction in alkaline media3. In particular, Ni-Fe-layered double hydroxides (LDH) have been intensively studied in recent years and have shown fast intrinsic electrocatalytic activity for water splitting4,5. In this work, we used Ni3Fe-LDH as an anode catalyst, DURAION® as ionomer and membrane and investigated the effects of electrode design and cell operation on the performance and stability of AEM electrolyzers. The optimized electrode was operated stably for 1000 hours at 1 A cm-2 with an overall degradation rate of 0.014 V h-1. At the end of the lifetime, the cell was disassembled and subjected to a series of experiments to investigate the physical and chemical degradation.This work provides a fundamental understanding and specific approach to the use of nickel-iron-based electrodes and promotes the further development of AEM water electrolyzers through highly stabilized, Ni-rich, and low-cost anodic electrocatalysts.This work has been performed in the frame of the CHANNEL project. This project has received funding from the Fuel Cells and Hydrogen 2 Joint Undertaking (now Clean Hydrogen Partnership) under grant agreement No 875088. This Joint undertaking receives support from the European Union's Horizon 2020 Research and Innovation program, Hydrogen Europe and Hydrogen Europe Research. Vincent, I. & Bessarabov, D. Low cost hydrogen production by anion exchange membrane electrolysis: A review. Renew. Sustain. Energy Rev. 81, 1690–1704 (2018).Miller, H. A. et al. Green hydrogen from anion exchange membrane water electrolysis: A review of recent developments in critical materials and operating conditions. Sustain. Energy Fuels 4, 2114–2133 (2020).Gong, M., Wang, D. Y., Chen, C. C., Hwang, B. J. & Dai, H. A mini review on nickel-based electrocatalysts for alkaline hydrogen evolution reaction. Nano Res. 9, 28–46 (2016).Zignani, S. C., Faro, M. Lo, Trocino, S. & Aricò, A. S. Investigation of NiFe-based catalysts for oxygen evolution in anion-exchange membrane electrolysis. Energies 13, (2020).Mohammed-Ibrahim, J. A review on NiFe-based electrocatalysts for efficient alkaline oxygen evolution reaction. J. Power Sources 448, 227375 (2020).