Abstract
Anion exchange membrane water electrolysis (AEMWE) has acquired substantial consideration as a cost-effective hydrogen production technology. The anion ionomer content in the catalyst layers during hydrogen and oxygen evolution reaction (HER and OER) is of ultimate significance. Herein, an in-situ half-cell analysis with reference electrodes was carried out for simultaneous potential measurements and identification of the influence of the anion exchange ionomer (AEI) content on anode and cathode performance. The measured half-cell potentials proved the influence of AEI content on the catalytic activity of HER and OER, which was supported by the rotating disk electrode (RDE) measurements. Cathode overpotential of Ni/C was not negligible and more affected by the AEI content than anode with the optimized AEI content of 10 wt% while NiO anode OER overpotential was independent of the AEI content. For the same AEI content, PGM catalysts showed higher electroactivity than Ni-based catalysts for HER and OER and the cathode catalyst's intrinsic activity is of high importance in the AEM electrolysis operation. Post-mortem analysis by SEM mapping of both AEI and catalyst distributions on the electrode surface showed the effect of AEI loading on the catalyst morphology, which could be related to the electrode performance.
Highlights
Hydrogen is a clean energy transition pathway conveying renewable sources including solar, wind, and hydro, to the increasing energy demands around the globe [1,2]
These results suggest that the impact on anion exchange ionomers (AEIs) content is significant in the Ni/C cathode performance while NiO anode catalytic layer electroactivity is independent of ionomer content
In-situ half-cell measurements with reference electrodes were carried out to identify the influence of anion exchange ionomer (AEI) content on anode and cathode potential contribution
Summary
Hydrogen is a clean energy transition pathway conveying renewable sources including solar, wind, and hydro, to the increasing energy demands around the globe [1,2]. This study, for the first time to the best of our knowledge, uses in-situ half-cell analysis in an AEMWE with reference electrodes to differentiate between the performance of a NiO anode and that of a Ni/C cathode at various AEI content during the cell operation.
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