Stacking Engineering of Heterojunctions in Half‐Metallic Carbon Nitride for Efficient CO2 Photoreduction

Xingwang Zhu; Hangmin Xu; Jinyuan Liu; Chuanzhou Bi; Jianfeng Tian; Kang Zhong; Bin Wang; Penghui Ding; Xiaozhi Wang; Paul K. Chu; Hui Xu; Jianning Ding

doi:10.1002/advs.202307192

Advanced Science (Dec 2023)

Stacking Engineering of Heterojunctions in Half‐Metallic Carbon Nitride for Efficient CO2 Photoreduction

Xingwang Zhu,
Hangmin Xu,
Jinyuan Liu,
Chuanzhou Bi,
Jianfeng Tian,
Kang Zhong,
Bin Wang,
Penghui Ding,
Xiaozhi Wang,
Paul K. Chu,
Hui Xu,
Jianning Ding

Affiliations

Xingwang Zhu: College of Environmental Science and Engineering, Institute of Technology for Carbon Neutralization Yangzhou University Yangzhou 225009 P. R. China
Hangmin Xu: College of Environmental Science and Engineering, Institute of Technology for Carbon Neutralization Yangzhou University Yangzhou 225009 P. R. China
Jinyuan Liu: Department of Physics, Department of Materials Science and Engineering, and Department of Biomedical Engineering City University of Hong Kong Tat Chee Avenue Kowloon Hong Kong 999077 P. R. China
Chuanzhou Bi: College of Environmental Science and Engineering, Institute of Technology for Carbon Neutralization Yangzhou University Yangzhou 225009 P. R. China
Jianfeng Tian: College of Environmental Science and Engineering, Institute of Technology for Carbon Neutralization Yangzhou University Yangzhou 225009 P. R. China
Kang Zhong: School of the Environment and Safety Engineering, Institute for Energy Research Jiangsu University Zhenjiang 212013 P. R. China
Bin Wang: Department of Physics, Department of Materials Science and Engineering, and Department of Biomedical Engineering City University of Hong Kong Tat Chee Avenue Kowloon Hong Kong 999077 P. R. China
Penghui Ding: Department of Science and Technology Linköping University Norrköping SE‐601 74 Sweden
Xiaozhi Wang: College of Environmental Science and Engineering, Institute of Technology for Carbon Neutralization Yangzhou University Yangzhou 225009 P. R. China
Paul K. Chu: Department of Physics, Department of Materials Science and Engineering, and Department of Biomedical Engineering City University of Hong Kong Tat Chee Avenue Kowloon Hong Kong 999077 P. R. China
Hui Xu: School of the Environment and Safety Engineering, Institute for Energy Research Jiangsu University Zhenjiang 212013 P. R. China
Jianning Ding: College of Environmental Science and Engineering, Institute of Technology for Carbon Neutralization Yangzhou University Yangzhou 225009 P. R. China

DOI: https://doi.org/10.1002/advs.202307192
Journal volume & issue: Vol. 10, no. 36
pp. n/a – n/a

Abstract

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Abstract Enhancing charge separation in semiconductor photocatalysts is a major challenge for efficient artificial photosynthesis. Herein, a compact heterojunction is designed by embedding half‐metallic C(CN)3 (hm‐CN) hydrothermally in BiOBr (BOB) as the backbone. The interface between hm‐CN and BOB is seamless and formed by covalent bonding to facilitate the transmission of photoinduced electrons from BOB to hm‐CN. The transient photocurrents and electrochemical impedance spectra reveal that the modified composite catalyst exhibits a larger electron transfer rate. The photocatalytic activity of hm‐CN/BOB increases significantly as indicated by a CO yield that is about four times higher than that of individual components. Density‐functional theory calculations verify that the heterojunction improves electron transport and decreases the reaction energy barrier, thus promoting the overall photocatalytic CO2 conversion efficiency. The half‐metal nitride coupled semiconductor heterojunctions might have large potential in artificial photosynthesis and related applications.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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