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Biomass Electrooxidation
Ni‐based hydroxides are promising electrocatalysts for biomass oxidation reactions, supplanting the oxygen evolution reaction (OER) while producing value‐added chemicals. In article number 2305573, Nicholas M. Bedford, Yuwei Yang, and co‐workers use catalyst engineering strategies for markedly improving selectivity toward biomass oxidation reactions versus the OER. This readily...
Ni‐based hydroxides are promising electrocatalysts for biomass oxidation reactions, supplanting the oxygen evolution reaction (OER) due to lower overpotentials while producing value‐added chemicals. The identification and subsequent engineering of their catalytically active sites are essential to facilitate these anodic reactions. Herein, the proportional relationship between catalysts’ deprotonation...
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