The effect of Ag atom doped Cu@CuO core-shell structure on its electronic properties and catalytic performance: a first principles study.

Zhang, Xiao; Zhou, Xiaolong; Guo, Yanxin; Li, Jintao; Hu, Chen; Zhang, Kunhua; Wang, Lihui

Zhang, Xiao; Zhou, Xiaolong; Guo, Yanxin; Li, Jintao; Hu, Chen; Zhang, Kunhua; Wang, Lihui.

Afiliação

Zhang X; Kunming University of Science and Technology, Department of Materials Science and Engineering, Key Laboratory of Advanced Materials of Yunnan Province & Key Laboratory of Advanced Materials of Non-Ferrous and Precious Rare Metals Ministry of Education, Kunming 650093, People's Republic of China.
Zhou X; Kunming University of Science and Technology, Department of Materials Science and Engineering, Key Laboratory of Advanced Materials of Yunnan Province & Key Laboratory of Advanced Materials of Non-Ferrous and Precious Rare Metals Ministry of Education, Kunming 650093, People's Republic of China.
Guo Y; Northeastern University, Shenyang 110006, People's Republic of China.
Li J; Kunming University of Science and Technology, Department of Materials Science and Engineering, Key Laboratory of Advanced Materials of Yunnan Province & Key Laboratory of Advanced Materials of Non-Ferrous and Precious Rare Metals Ministry of Education, Kunming 650093, People's Republic of China.
Hu C; Kunming University of Science and Technology, Department of Materials Science and Engineering, Key Laboratory of Advanced Materials of Yunnan Province & Key Laboratory of Advanced Materials of Non-Ferrous and Precious Rare Metals Ministry of Education, Kunming 650093, People's Republic of China.
Zhang K; Kunming Precious Metals Research Institute, Kunming 650031, People's Republic of China.
Wang L; Guilin Key Laboratory of Microelectronic Electrode Materials and Biological Nanomaterials, China Nonferrous Metal (Guilin) Geology and Mining Co., Ltd, Guilin 541004, People's Republic of China.

Nanotechnology ; 32(9): 095707, 2021 Feb 26.

Article em En | MEDLINE | ID: mdl-33207330

ABSTRACT

ABSTRACT

Density functional theory was used to study the Ag-doped Cu@CuO core-shell structure, electronic properties and catalytic properties. Similar to the undoped Cu@CuO clusters, the Ag doped clusters also retain the core-shell structure. Ag doping increases the charge transfer between surrounding O atoms and Cu atoms and reduces the potential of the core-shell structure, thereby increasing its surface activity. The study of its orbital distribution found that the doping of Ag atoms caused the interaction between the inner Cu core and the outer CuO shell, which changed the electron orbital motion inside the shell. The internal chemical stability of the core-shell material is improved. In addition, Ag atom doping accelerates the decomposition of H2O2 on Cu@CuO structure and increases its adsorption of small molecules, which indicates that Ag atom doping improves the catalytic performance of Cu@CuO structure.

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: Nanotechnology Ano de publicação: 2021 Tipo de documento: Article País de publicação: ENGLAND / ESCOCIA / GB / GREAT BRITAIN / INGLATERRA / REINO UNIDO / SCOTLAND / UK / UNITED KINGDOM

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