Confined Intermediates Boost C2+Selectivity in CO2 Electroreduction

被引:6
|
作者
Li, Wanhe [1 ]
Chen, Yahui [1 ]
Guo, Chengqi [1 ]
Jia, Shuhan [1 ]
Zhou, Yiying [1 ]
Liu, Zhonghuan [1 ]
Jiang, Enhui [1 ]
Chen, Xiaoke [1 ]
Zou, Yue [1 ]
Huo, Pengwei [1 ]
Yan, Yongshneg [1 ]
Zhu, Zhi [1 ]
Ng, Yun Hau [2 ]
Gong, Yanjun
Crittenden, John Charles
Yan, Yan [1 ]
机构
[1] Jiangsu Univ, Sch Chem & Chem Engn, Zhenjiang 212013, Peoples R China
[2] City Univ Hong Kong, Sch Energy & Environm, Hong Kong 999077, Peoples R China
来源
ACS CATALYSIS | 2024年 / 14卷 / 17期
基金
中国国家自然科学基金;
关键词
CO2; reduction; Cu2O; confinement space; in situFTIR; molecular dynamics; CARBON-DIOXIDE; ELECTROCHEMICAL REDUCTION; ETHYLENE; COPPER; SELECTIVITY; CATALYSTS;
D O I
10.1021/acscatal.4c02823
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Addressing the efficient electrochemical conversion of CO2 (CO2RR) into valuable multicarbon (C2+) products necessitates innovative strategies to boost carbon (C1) intermediate coupling on catalyst surfaces. In this work, we introduce a surface-confinement strategy on Cu2O nanoparticles by long alkyl chain grafting to create a spatially confined environment, impeding C1 intermediate detachment and promoting C-C coupling in the CO2RR. The optimized C12-Cu2O sample exhibits a Faradaic efficiency (FE) over 63.0% for C2H4, more than double the yield of pristine Cu2O (FE = 25.7%). In situ ATR-FTIR spectroscopy provides direct evidence of rapid C1 intermediate enrichment and restricted diffusion within the surface-confined environment. Molecular dynamics simulations further support these findings by identifying a prolonged residency time that is proportionate to the alkyl chain length, thereby maximizing C2+ selectivity. This surface-confinement approach marks a previously overlooked but immensely promising paradigm in the catalyst design for the CO2RR.
引用
收藏
页码:13400 / 13407
页数:8
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