具有高密度缺陷的铜纳米线在宽电位窗口上选择性地将CO2还原为乙烯

IF 4.3 2区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Ying Zhang, Zhanbo Si*, Huishuang Du, Yilin Deng, Qiankang Zhang, Zhaolong Wang, Qing Yu* and Hui Xu, 
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引用次数: 0

摘要

利用可再生电力将二氧化碳电化学还原为乙烯是一种有吸引力的可持续碳回收方法。在催化剂中原位生成缺陷被认为是一种很有前途的方法,可以保证高稳定性的高乙烯产率。在本研究中,原位制备了具有高密度缺陷的铜纳米线,用于电催化CO2还原。这些缺陷有效地改善了C-C耦合,从而实现了C2产品的CO2还原性能。所得的铜纳米线对C2的选择性为79%,对C2H4的选择性为58%。更重要的是,以FE(C2H4) >55%选择性生产C2H4,实现了500 mV的显著宽电位窗口。最后,原位拉曼光谱显示Cu0是电催化CO2还原反应的真实反应位点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Selective CO2 Reduction to Ethylene Over a Wide Potential Window by Copper Nanowires with High Density of Defects

Selective CO2 Reduction to Ethylene Over a Wide Potential Window by Copper Nanowires with High Density of Defects

Electrochemical reduction of CO2 to ethylene using renewable electricity is an attractive approach for sustainable carbon recycling. In situ generation of defects in catalysts is found to be a promising method to guarantee high ethylene production from CO2 with high stability. In this study, copper nanowires are prepared in situ with a high density of defects for electrocatalytic CO2 reduction. These defects effectively improve C–C coupling, thus realizing a remarkable performance toward CO2 reduction to C2 products. The obtained copper nanowires showed a high selectivity of ∼79% for C2 products and >58% for C2H4. More importantly, a significantly wide potential window of 500 mV was realized for the selective production of C2H4 with FE(C2H4) >55%. Finally, in situ Raman spectroscopy revealed that Cu0 is the real reactive site for the electrocatalytic CO2 reduction reaction.

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来源期刊
Inorganic Chemistry
Inorganic Chemistry 化学-无机化学与核化学
CiteScore
7.60
自引率
13.00%
发文量
1960
审稿时长
1.9 months
期刊介绍: Inorganic Chemistry publishes fundamental studies in all phases of inorganic chemistry. Coverage includes experimental and theoretical reports on quantitative studies of structure and thermodynamics, kinetics, mechanisms of inorganic reactions, bioinorganic chemistry, and relevant aspects of organometallic chemistry, solid-state phenomena, and chemical bonding theory. Emphasis is placed on the synthesis, structure, thermodynamics, reactivity, spectroscopy, and bonding properties of significant new and known compounds.
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