Dual atomic catalysts from COF‐derived carbon for CO2RR by suppressing HER through synergistic effects
Minghao Liu,
Sijia Liu,
Qing Xu,
Qiyang Miao,
Shuai Yang,
Svenja Hanson,
George Zheng Chen,
Jun He,
Zheng Jiang,
Gaofeng Zeng
Affiliations
Minghao Liu
CAS Key Laboratory of Low‐Carbon Conversion Science and Engineering, Shanghai Advanced Research Institute (SARI) Chinese Academy of Sciences (CAS) Shanghai People's Republic of China
Sijia Liu
CAS Key Laboratory of Low‐Carbon Conversion Science and Engineering, Shanghai Advanced Research Institute (SARI) Chinese Academy of Sciences (CAS) Shanghai People's Republic of China
Qing Xu
CAS Key Laboratory of Low‐Carbon Conversion Science and Engineering, Shanghai Advanced Research Institute (SARI) Chinese Academy of Sciences (CAS) Shanghai People's Republic of China
Qiyang Miao
CAS Key Laboratory of Low‐Carbon Conversion Science and Engineering, Shanghai Advanced Research Institute (SARI) Chinese Academy of Sciences (CAS) Shanghai People's Republic of China
Shuai Yang
School of Chemical Engineering University of Chinese Academy of Sciences Beijing People's Republic of China
Svenja Hanson
Department of Chemical and Environmental Engineering University of Nottingham Ningbo China Ningbo People's Republic of China
George Zheng Chen
Department of Chemical and Environmental Engineering University of Nottingham Nottingham UK
Jun He
Department of Chemical and Environmental Engineering University of Nottingham Ningbo China Ningbo People's Republic of China
Zheng Jiang
School of Chemical Engineering University of Chinese Academy of Sciences Beijing People's Republic of China
Gaofeng Zeng
CAS Key Laboratory of Low‐Carbon Conversion Science and Engineering, Shanghai Advanced Research Institute (SARI) Chinese Academy of Sciences (CAS) Shanghai People's Republic of China
Abstract The electrochemical carbon dioxide reduction reaction (CO2RR) for high‐value‐added products is a promising strategy to tackle excessive CO2 emissions. However, the activity of and selectivity for catalysts for CO2RR still need to be improved because of the competing reaction (hydrogen evolution reaction). In this study, for the first time, we have demonstrated dual atomic catalytic sites for CO2RR from a core–shell hybrid of the covalent–organic framework and the metal–organic framework. Due to abundant dual atomic sites (with CoN4O and ZnN4 of 2.47 and 11.05 wt.%, respectively) on hollow carbon, the catalyst promoted catalysis of CO2RR, with the highest Faradic efficiency for CO of 92.6% at –0.8 V and a turnover frequency value of 1370.24 h–1 at –1.0 V. More importantly, the activity and selectivity of the catalyst were well retained for 30 h. The theoretical calculation further revealed that CoN4O was the main site for CO2RR, and the activity of and selectivity for Zn sites were also improved because of the synergetic roles.
