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Abstract
Oxygen evolution reaction (OER) is the counterpart in the hydrogen production by the water electrolysis. Further challenges have been required to bypass the energy consumption processes in OER. It is still important to unveil the OER intermediates toward the effective green hydrogen production. In this study, we conducted the in-situ Raman observation of the OER intermediates over Ni nanohole-array electrodes in the various electrolyte conditions. Ni nanohole-array electrodes were prepared with the interference exposure methods. Intense Raman peaks were observed from the Ni-OH, Ni-OOH, and active oxygen species as OER intermediates. The OER behavior can be classified with the reactants, such as OH− and H2O. The presented study demonstrates the importance of the electrolyte for the designing active OER catalysis for the next generation energy society.
