采用抑制氢还原的青铜合金中空纤维电极进行甲酸根选择性CO电化学还原。

Formate-Selective CO Electrochemical Reduction with a Hydrogen-Reduction-Suppressing Bronze Alloy Hollow-Fiber Electrode.

作者信息

Chen Biyu, Xu Jiajie, Zou Jiantao, Liu Defei, Situ Yue, Huang Hong

机构信息

School of Chemistry and Chemical Engineering, South China University of Technology(SCUT), Guangzhou, 510641, P. R. China.

School of Environmental and Chemical Engineering, Foshan University, Foshan, 528000, P. R. China.

出版信息

ChemSusChem. 2020 Dec 17;13(24):6594-6601. doi: 10.1002/cssc.202002314. Epub 2020 Nov 6.

DOI:10.1002/cssc.202002314

PMID:33124168

Abstract

Electroreduction carbon dioxide into formate has been regarded as a hopeful measure to relieve global warming. Copper-based hollow fibers demonstrated good performances on converting carbon dioxide in previous researches. Herein Cu-Sn alloy hollow fibers were synthesized in an innovative way, combining the structure advantages of hollow fiber and high selectivity towards formate on η' bronze. Tests under different gas injection conditions were conducted to analyze the contribution of the hollow fiber structure on suppression of hydrogen evolution and promotion on kinetics. Strikingly, Cu-Sn hollow fiber, the optimal catalyst in this work, achieved a highest faradaic efficiency towards formate of 90.96 % at a lower potential of -0.75 V vs. RHE than most non-noble catalysts, and the FE of H was below 4 %.

摘要

将二氧化碳电还原为甲酸盐被视为缓解全球变暖的一项有前景的措施。在先前的研究中，铜基中空纤维在二氧化碳转化方面表现出良好的性能。在此，通过创新的方法合成了Cu-Sn合金中空纤维，结合了中空纤维的结构优势以及对η'青铜上甲酸盐的高选择性。进行了不同气体注入条件下的测试，以分析中空纤维结构对抑制析氢和促进动力学的贡献。引人注目的是，Cu-Sn中空纤维作为本工作中的最佳催化剂，在相对于可逆氢电极（RHE）为-0.75 V的较低电位下，实现了对甲酸盐的最高法拉第效率90.96%，且析氢的法拉第效率低于4%。

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采用抑制氢还原的青铜合金中空纤维电极进行甲酸根选择性CO电化学还原。

Formate-Selective CO Electrochemical Reduction with a Hydrogen-Reduction-Suppressing Bronze Alloy Hollow-Fiber Electrode.

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