树枝状氧化铜纳米颗粒通过电化学二氧化碳还原诱导高选择性乙烯生成。

Branched Copper Oxide Nanoparticles Induce Highly Selective Ethylene Production by Electrochemical Carbon Dioxide Reduction.

作者信息

Kim Jinmo, Choi Woong, Park Joon Woo, Kim Cheonghee, Kim Minjun, Song Hyunjoon

机构信息

Department of Chemistry , Korea Advanced Institute of Science and Technology , Daejeon 34141 , Republic of Korea.

Department of Chemical Engineering , Technical University of Berlin , Straße des 17. Juni 135 , 10623 Berlin , Germany.

出版信息

J Am Chem Soc. 2019 May 1;141(17):6986-6994. doi: 10.1021/jacs.9b00911. Epub 2019 Apr 17.

DOI:10.1021/jacs.9b00911

PMID:30964296

Abstract

For long-term storage of renewable energy, the electrochemical carbon dioxide reduction reaction (CORR) offers a promising option for converting electricity to permanent forms of chemical energy. In this work, we present highly selective ethylene production dependent upon the catalyst morphology using copper oxide nanoparticles. The branched CuO nanoparticles were synthesized and then deposited on conductive carbon materials. After activation, the major copper species changed to Cu, and the resulting electrocatalyst exhibited a high Faradaic efficiency (FE) of ethylene reaching over 70% and a hydrogen FE of 30% without any byproducts in a neutral aqueous solution. The catalyst also showed high durability (up to 12 h) with the ethylene FE over 65%. Compared to cubic morphology, the initial branched copper oxide structure formed highly active domains with interfaces and junctions in-between during activation, which caused large surface area with high local pH leading to high selectivity and activity for ethylene production.

摘要

对于可再生能源的长期储存，电化学二氧化碳还原反应（CORR）为将电能转化为永久性化学能形式提供了一个有前景的选择。在这项工作中，我们展示了使用氧化铜纳米颗粒，基于催化剂形态实现的高选择性乙烯生产。合成了分支状的氧化铜纳米颗粒，然后将其沉积在导电碳材料上。活化后，主要的铜物种转变为铜，所得的电催化剂在中性水溶液中表现出高达70%以上的乙烯法拉第效率（FE）和30%的氢气FE，且无任何副产物。该催化剂还表现出高耐久性（长达12小时），乙烯FE超过65%。与立方形态相比，初始的分支状氧化铜结构在活化过程中形成了具有界面和结的高活性区域，这导致了大表面积和高局部pH值，从而对乙烯生产具有高选择性和活性。

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Branched Copper Oxide Nanoparticles Induce Highly Selective Ethylene Production by Electrochemical Carbon Dioxide Reduction.树枝状氧化铜纳米颗粒通过电化学二氧化碳还原诱导高选择性乙烯生成。

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树枝状氧化铜纳米颗粒通过电化学二氧化碳还原诱导高选择性乙烯生成。

Branched Copper Oxide Nanoparticles Induce Highly Selective Ethylene Production by Electrochemical Carbon Dioxide Reduction.

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