一种具有孤立活性位点的稳定且导电的共价有机框架，用于将二氧化碳高效选择性电还原为乙酸盐。

A Stable and Conductive Covalent Organic Framework with Isolated Active Sites for Highly Selective Electroreduction of Carbon Dioxide to Acetate.

作者信息

Qiu Xiao-Feng, Huang Jia-Run, Yu Can, Zhao Zhen-Hua, Zhu Hao-Lin, Ke Zhuofeng, Liao Pei-Qin, Chen Xiao-Ming

机构信息

MOE Key Laboratory of Bioinorganic and Synthetic Chemistry, School of Chemistry, Sun Yat-sen University, Guangzhou, 510275, China.

Institute of High Energy Physics, Chinese Academy of Sciences (CAS), Beijing, 100049, China.

出版信息

Angew Chem Int Ed Engl. 2022 Sep 5;61(36):e202206470. doi: 10.1002/anie.202206470. Epub 2022 Jul 8.

DOI:10.1002/anie.202206470

PMID:35697663

Abstract

Electroreduction of CO to acetate provides a promising strategy to reduce CO emissions and store renewable energy, but acetate is usually a by-product. Here, we show a stable and conductive two-dimensional phthalocyanine-based covalent-organic framework (COF) as an electrocatalyst for reduction of CO to acetate with a single-product Faradaic efficiency (FE) of 90.3(2)% at -0.8 V (vs. RHE) and a current density of 12.5 mA cm in 0.1 M KHCO solution. No obvious degradation was observed over 80 hours of continuous operation. Combined with the comparison of the properties of other catalysts with isolated metal active sites, theoretical calculations and in situ infrared spectroscopy revealed that the isolated copper-phthalocyanine active site with high electron density is conducive to the key step of C-C coupling of *CH with CO to produce acetate, and can avoid the coupling of *CO with *CO or *CHO to produce ethylene and ethanol.

摘要

将CO电还原为乙酸盐为减少CO排放和存储可再生能源提供了一种有前景的策略，但乙酸盐通常是副产物。在此，我们展示了一种稳定且导电的二维酞菁基共价有机框架（COF）作为电催化剂，用于将CO还原为乙酸盐，在-0.8 V（相对于可逆氢电极）下的单产物法拉第效率（FE）为90.3(2)%，在0.1 M KHCO溶液中的电流密度为12.5 mA cm 。连续运行80小时未观察到明显降解。结合对具有孤立金属活性位点的其他催化剂性质的比较，理论计算和原位红外光谱表明，具有高电子密度的孤立铜酞菁活性位点有利于CH与CO进行C-C偶联生成乙酸盐的关键步骤，并且可以避免CO与CO或CHO偶联生成乙烯和乙醇。

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一种具有孤立活性位点的稳定且导电的共价有机框架，用于将二氧化碳高效选择性电还原为乙酸盐。

A Stable and Conductive Covalent Organic Framework with Isolated Active Sites for Highly Selective Electroreduction of Carbon Dioxide to Acetate.

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