苯乙炔
材料科学
电化学
电催化剂
催化作用
电解水
电解
纳米孔
无机化学
吸附
化学工程
光化学
电极
纳米技术
物理化学
化学
有机化学
电解质
工程类
作者
Shutao Wu,Xiongqin Liu,Dongchen Qi,Fei Liu
标识
DOI:10.1021/acsami.4c17574
摘要
Electrochemical alkyne reduction with H 2 O as a hydrogen source represents a sustainable route for value-added olefin production. However, the reaction efficiency is hampered by the high voltage and low activity of Cu electrodes due to their weak adsorbed hydrogen (*H) generation property. In this article, we present the enhanced electrocatalysis of phenylacetylene to styrene over a highly dispersive Cr-doped Cu 2 O nanowire (Cr-Cu 2 O) cathode. The Cr-Cu 2 O demonstrates improved catalytic activity compared to pure Cu 2 O, achieving a high conversion of about 94.7% and a selectivity of 87.9% with a Faraday efficiency of 64.5% at a low potential of −1.15 V vs Hg/HgO. The combination of electrochemical characterization techniques and theoretical calculations demonstrated the key role of introduced Cr atoms in lowering the activation energy barrier of surface water electrolysis to *H and facilitating the adsorption of phenylacetylene, which promotes the effective hydrogenation of phenylacetylene with *H via an electrocatalytic hydrogenation mechanism. In short, this work provides a feasible strategy to enrich interfacial *H, thus improving the semihydrogenation performance of phenylacetylene.
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