用于高效CO电还原的螺旋状BiO微纤维的仿生构建

Bionic Construction of Helical Bi O Microfibers for Highly Efficient CO Electroreduction.

作者信息

Ning Hui, Wang Yani, Fei Xiang, Wang Xiaoshan, Jin Xin, Zou Yecheng, Ma Chang, Jiao Zhenmei, Zhao Yan, Wu Mingbo

机构信息

State Key Laboratory of Heavy Oil Processing, College of Chemistry and Chemical Engineering, College of New Energy, China University of Petroleum, No. 66, West Changjiang Road, Huangdao District, Qingdao, 266580, China.

Shandong Dongyue future hydrogen energy material Co., Ltd Tangshan town, Huantai County, Zibo City, 256412, China.

出版信息

ChemSusChem. 2023 Jan 9;16(1):e202201810. doi: 10.1002/cssc.202201810. Epub 2022 Nov 22.

DOI:10.1002/cssc.202201810

PMID:36330750

Abstract

Helical Bi O microfibers (HBM) were prepared with the assistance of cotton template through a simple heating treatment in air. This twisted structure induced the lattice strains, enriched the oxygen vacancies of Bi O , and promoted the sufficient exposure of active sites simultaneously, thus performing outstanding activity and selectivity as catalyst for CO electroreduction to formate. The faradaic efficiency (FE) of formate reached 100.4±1.9 % at -0.90 V vs. reversible hydrogen electrode (RHE) in an H-cell, and the partial current density was boosted to 226 mA cm with FE of 96 % at -1.08 V vs. RHE in a flow cell. This work may open a new era for construction of metal oxide fibers by bionic strategy as high-performance electrocatalysts.

摘要

通过在空气中进行简单的加热处理，在棉模板的辅助下制备了螺旋状的BiO微纤维（HBM）。这种扭曲结构诱导了晶格应变，丰富了BiO的氧空位，并同时促进了活性位点的充分暴露，从而作为将CO电还原为甲酸盐的催化剂表现出出色的活性和选择性。在H型电解池中，相对于可逆氢电极（RHE），在-0.90 V时甲酸盐的法拉第效率（FE）达到100.4±1.9%，在流通池中，相对于RHE，在-1.08 V时，部分电流密度提高到226 mA cm，FE为96%。这项工作可能为通过仿生策略构建金属氧化物纤维作为高性能电催化剂开创一个新时代。

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用于高效CO电还原的螺旋状BiO微纤维的仿生构建

Bionic Construction of Helical Bi O Microfibers for Highly Efficient CO Electroreduction.

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