Highly Electrocatalytic Ethylene Production from CO2 on Nanodefective Cu Nanosheets

The electrochemical synthesis of chemicals from carbon dioxide, which is an easily available and renewable carbon resource, is of great importance. However, to achieve high product selectivity for desirable C2 products like ethylene is a big challenge. Here we design Cu nanosheets with nanoscaled de...

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Veröffentlicht in:	Journal of the American Chemical Society 2020-08, Vol.142 (31), p.13606-13613
Hauptverfasser:	Zhang, Bingxing, Zhang, Jianling, Hua, Manli, Wan, Qiang, Su, Zhuizhui, Tan, Xiuniang, Liu, Lifei, Zhang, Fanyu, Chen, Gang, Tan, Dongxing, Cheng, Xiuyan, Han, Buxing, Zheng, Lirong, Mo, Guang
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creator	Zhang, Bingxing Zhang, Jianling Hua, Manli Wan, Qiang Su, Zhuizhui Tan, Xiuniang Liu, Lifei Zhang, Fanyu Chen, Gang Tan, Dongxing Cheng, Xiuyan Han, Buxing Zheng, Lirong Mo, Guang
description	The electrochemical synthesis of chemicals from carbon dioxide, which is an easily available and renewable carbon resource, is of great importance. However, to achieve high product selectivity for desirable C2 products like ethylene is a big challenge. Here we design Cu nanosheets with nanoscaled defects (2–14 nm) for the electrochemical production of ethylene from carbon dioxide. A high ethylene Faradaic efficiency of 83.2% is achieved. It is proved that the nanoscaled defects can enrich the reaction intermediates and hydroxyl ions on the electrocatalyst, thus promoting C–C coupling for ethylene formation.
doi_str_mv	10.1021/jacs.0c06420
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title	Highly Electrocatalytic Ethylene Production from CO2 on Nanodefective Cu Nanosheets
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