中文版 | English
Title

Coordination chemistry in modulating electronic structures of perovskite-type oxide nanocrystals for oxygen evolution catalysis

Author
Corresponding AuthorXiao, Xin; Xu, Qiang
Publication Years
2023-06-15
DOI
Source Title
ISSN
0010-8545
EISSN
1873-3840
Volume485
Abstract
Perovskite-type oxide nanocrystals (AxByOz) have attracted increasing interest as efficient oxygen evolu-tion reaction (OER) catalysts, which possess distinct thermal stability, ionic conductivity and electron mobility properties. Particularly, the electronic structure of perovskite-type nanocrystal plays a decisive role in electrocatalytic performance. Here, we systematically investigate the eg orbital filling, metal -oxygen hybridization, and electron correlations of perovskite-type oxide nanocrystals for high-performance OER catalysis. Meanwhile, the construction strategies for controlling the atomic configura-tions of adjacent sites and coordination environments in perovskite-type catalysts are also discussed for the rational design of efficient OER catalysts. Notably, we build a bridge between coordination environ-ments, electronic structures, and catalytic activity of catalysts by focusing on the physicochemical prop-erties of catalysts in terms of atom replacement, atom doping, and oxygen vacancy. This work would provide the readers with a comprehensive understanding and updated information towards the design of perovskite-type oxide nanocrystals with well-confined electronic properties for electrocatalysis. Finally, a perspective is given on the opportunities and further research directions of perovskite-based electrocatalysts for OER as well as the challenges involved in this task.(c) 2023 Elsevier B.V. All rights reserved.
Keywords
URL[Source Record]
Indexed By
Language
English
SUSTech Authorship
First ; Corresponding
Funding Project
Shenzhen Key Laboratory of Micro/Nano-Porous Functional Materials (SKLPM)[ZDSYS20210709112802010] ; Guangdong Grants[2021ZT09C064] ; Scientific Research Program of Hubei Provincial Department of Education[Q20211504]
WOS Research Area
Chemistry
WOS Subject
Chemistry, Inorganic & Nuclear
WOS Accession No
WOS:000964376000001
Publisher
ESI Research Field
CHEMISTRY
Data Source
Web of Science
Citation statistics
Cited Times [WOS]:0
Document TypeJournal Article
Identifierhttp://kc.sustech.edu.cn/handle/2SGJ60CL/524049
DepartmentDepartment of Chemistry
工学院_材料科学与工程系
Affiliation
1.Southern Univ Sci & Technol SUSTech, SUSTech Kyoto Univ Adv Energy Mat,Joint Innovat La, Key Univ Lab Highly Efficient Utilizat Solar Energ, Dept Chem,Shenzhen Key Lab Micro Nanoporous Funct, Shenzhen 518055, Peoples R China
2.Southern Univ Sci & Technol SUSTech, Dept Mat Sci & Engn, Shenzhen 518055, Peoples R China
First Author AffilicationDepartment of Chemistry;  Department of Materials Science and Engineering
Corresponding Author AffilicationDepartment of Chemistry;  Department of Materials Science and Engineering
First Author's First AffilicationDepartment of Chemistry
Recommended Citation
GB/T 7714
Shang, Chunyan,Xiao, Xin,Xu, Qiang. Coordination chemistry in modulating electronic structures of perovskite-type oxide nanocrystals for oxygen evolution catalysis[J]. COORDINATION CHEMISTRY REVIEWS,2023,485.
APA
Shang, Chunyan,Xiao, Xin,&Xu, Qiang.(2023).Coordination chemistry in modulating electronic structures of perovskite-type oxide nanocrystals for oxygen evolution catalysis.COORDINATION CHEMISTRY REVIEWS,485.
MLA
Shang, Chunyan,et al."Coordination chemistry in modulating electronic structures of perovskite-type oxide nanocrystals for oxygen evolution catalysis".COORDINATION CHEMISTRY REVIEWS 485(2023).
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