Steering benzyl alcohol electrooxidation coupled with hydrogen evolution via hetero ‐interface construction

AbstractIt is still a challenge to develop electrocatalyst for the efficient adsorption and conversion of organic molecule in aqueous media. Herein, a hetero-interface structure based on CuO@Ni(OH)2 is rationally designed to enhance the performance of benzyl alcohol oxidation to benzoic acid. A high Faradaic efficiency of 99% and the yield of 3.09  mmol cm−2 h−1 are achieved at 1.70  V versus reversible hydrogen electrode, outperforming the previously reported electrocatalysts. Furthermore, a membrane-free flow electrolyzer was assembled based on CuO@Ni(OH)2 hetero-interface, exhibiting a much high yielding of benzoic acid (6.73  mmol cm−2 h−1) and hydrogen (0.35  L cm−2 h−1) with excellent stability. Both experimental data and density functional theory calculations verify that the electron is tend to accumulate at the hetero-interface, thus accelerating the adsorption of reactant and intermediate and reducing the energy barrier of the conversion of benzyl alcohol to benzoic acid.
Source: AIChE Journal - Category: Science Authors: Tags: RESEARCH ARTICLE Source Type: research
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