Metal-Organic Framework Supported Low-Nuclearity Cluster Catalysts for Highly Selective Carbon Dioxide Electroreduction to Ethanol

被引:11
|
作者
Shao, Bing [1 ,2 ]
Huang, Du [3 ]
Huang, Rui-Kang [4 ]
He, Xing-Lu [1 ]
Luo, Yan [1 ]
Xiang, Yi-Lei [5 ]
Jiang, Lin-bin [5 ]
Dong, Min [1 ]
Li, Shixiong [6 ]
Zhang, Zhong [7 ]
Huang, Jin [1 ]
机构
[1] Guangxi Med Univ, Pharmaceut Coll, Nanning 530021, Peoples R China
[2] Southern Univ Sci & Technol, Dept Chem, Shenzhen 518055, Peoples R China
[3] Guangxi Minzu Univ, Coll Chem & Chem Engn, Nanning 530006, Peoples R China
[4] Hokkaido Univ, Res Inst Elect Sci, Sapporo 0010021, Japan
[5] Guangxi Univ, Sch Chem & Chem Engn, Nanning 530004, Peoples R China
[6] Wuzhou Univ, Sch Mech & Resource Engn, Wuzhou 543003, Guangxi, Peoples R China
[7] Guangxi Normal Univ, Sch Chem & Pharmaceut Sci, Guilin 541004, Peoples R China
来源
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION | 2024年 / 63卷 / 45期
基金
中国国家自然科学基金;
关键词
metal-organic frameworks; low-nuclearity cluster; electrocatalysis; carbon dioxide reduction; C2+ products; ELECTROCHEMICAL REDUCTION; CO2; REDUCTION; CU; ATOMS; ELECTROCATALYSIS; CONVERSION; STABILITY; EFFICIENT; SITES;
D O I
10.1002/anie.202409270
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
It is still a great challenge to achieve high selectivity of ethanol in CO2 electroreduction reactions (CO2RR) because of the similar reduction potentials and lower energy barrier of possible other C2+ products. Here, we report a MOF-based supported low-nuclearity cluster catalysts (LNCCs), synthesized by electrochemical reduction of three-dimensional (3D) microporous Cu-based MOF, that achieves a single-product Faradaic efficiency (FE) of 82.5 % at -1.0 V (versus the reversible hydrogen electrode) corresponding to the effective current density is 8.66 mA cm(-2). By investigating the relationship between the species of reduction products and the types of catalytic sites, it is confirmed that the multi-site synergism of Cu LNCCs can increase the C-C coupling effect, and thus achieve high FE of CO2-to-ethanol. In addition, density functional theory (DFT) calculation and operando attenuated total reflectance surface-enhanced infrared absorption spectroscopy further confirmed the reaction path and mechanism of CO2-to-EtOH.
引用
收藏
页数:10
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