Halide-modulated Hollow-Fiber Cu penetration electrode boosts Ampere-Level CO2 electroreduction to multicarbon products
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作者
Zhu, Chang; Wu, Gangfeng; Mao, Jianing; Chen, Aohui; Zhao, Yonghui; Feng, Guanghui; Wei, Yiheng; Liu, Xiaohu; Li, Shoujie; Li, Guihua; Dong, Xiao; Song, Yanfang; Wei, Wei; Chen, Wei
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刊物名称
CHEMICAL ENGINEERING JOURNAL
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年、卷、文献号
2024, 485, 1873-3212
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关键词
Zhu, Chang; Wu, Gangfeng; Mao, Jianing; Chen, Aohui; Zhao, Yonghui; Feng, Guanghui; Wei, Yiheng; Liu, Xiaohu; Li, Shoujie; Li, Guihua; Dong, Xiao; Song, Yanfang; Wei, Wei; Chen, Wei
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摘要
Electroreduction of CO2 to chemical fuels is desirable for the economically viable use of CO2 and consumption of renewable electricity. Efficient production of C2+ on Cu-based catalysts remains a challenge. Herein, a copper hollow fiber penetration electrode with a striking C-C coupling capability by virtue of modulating the electronic states through halide ion coordinated adsorption. An efficient C2+ production with a FE of 68.8 % at 2.1 A cm-2 in 3.0 M KI and remained stable during 120-h electrolysis at 2.0 A cm-2, outperforming reported catalytic performance, which is the result of combined effect of penetration effect and halide ion coordinated adsorption, which promotes the transfer of electrons to CO2, reduces the C-C coupling energy and suppresses proton adsorption, thereby reducing hydrogen evolution.
