Mediating distribution of magnetic Co ions by Cr-codoping in (Co,Cr): ZnO thin films

Wensheng Yan; Zhihu Sun; Qinghua Liu; Tao Yao; Qinghua Jiang; Fengchun Hu; Yuanyuan Li; Jingfu He; Yanhua Peng; Shiqiang Wei

doi:10.1063/1.3470090

Mediating distribution of magnetic Co ions by Cr-codoping in (Co,Cr): ZnO thin films

Wensheng Yan, Zhihu Sun, Qinghua Liu, Tao Yao, Qinghua Jiang, Fengchun Hu, Yuanyuan Li, Jingfu He, Yanhua Peng, Shiqiang Wei

Surface Chemistry & Catalysis Group

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

The control over the distribution of magnetic ions in a host is crucial for the functionality of magnetically doped semiconductors. Herein, (Co,Cr)-codoped ZnO shows a possibility of Cr-codoping engineering in mediating the distribution of magnetic Co ions via manipulating the charge state of the Co ions. The x-ray absorption fine structure analyses at Co K-edge indicate that a secondary phase of metallic Co clusters is formed in the Zn _0.92Co_0.08O film. However, Cr-codoping suppresses the formation of Co clusters, so that all doped Co ions occupy the substitutional sites in ZnO. The ability of Cr in mediating Co distribution, as revealed by first-principles calculations, arises from the strong hybridization between the Co 3d states and the donor band induced by substitutional Cr ions, which facilitates the charge transfer from the donor band to the Co 3d states, changes the charge state of Co ions and modifies the electrostatic interactions among Co ions.

Original language	English
Article number	042504
Journal	Applied Physics Letters
Volume	97
Issue number	4
DOIs	https://doi.org/10.1063/1.3470090
State	Published - Jul 26 2010

Funding

This work was supported by the National Natural Science Foundation of China (Grant Nos. 10635060, 10979041, 10975140, 10979044, and 10725522), and Knowledge Innovative Program of The Chinese Academy of Sciences (Grant No. KJCX2-YW-N40).

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title = "Mediating distribution of magnetic Co ions by Cr-codoping in (Co,Cr): ZnO thin films",

abstract = "The control over the distribution of magnetic ions in a host is crucial for the functionality of magnetically doped semiconductors. Herein, (Co,Cr)-codoped ZnO shows a possibility of Cr-codoping engineering in mediating the distribution of magnetic Co ions via manipulating the charge state of the Co ions. The x-ray absorption fine structure analyses at Co K-edge indicate that a secondary phase of metallic Co clusters is formed in the Zn 0.92Co0.08O film. However, Cr-codoping suppresses the formation of Co clusters, so that all doped Co ions occupy the substitutional sites in ZnO. The ability of Cr in mediating Co distribution, as revealed by first-principles calculations, arises from the strong hybridization between the Co 3d states and the donor band induced by substitutional Cr ions, which facilitates the charge transfer from the donor band to the Co 3d states, changes the charge state of Co ions and modifies the electrostatic interactions among Co ions.",

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T2 - ZnO thin films

AU - Yan, Wensheng

AU - Sun, Zhihu

AU - Liu, Qinghua

AU - Yao, Tao

AU - Jiang, Qinghua

AU - Hu, Fengchun

AU - Li, Yuanyuan

AU - He, Jingfu

AU - Peng, Yanhua

AU - Wei, Shiqiang

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N2 - The control over the distribution of magnetic ions in a host is crucial for the functionality of magnetically doped semiconductors. Herein, (Co,Cr)-codoped ZnO shows a possibility of Cr-codoping engineering in mediating the distribution of magnetic Co ions via manipulating the charge state of the Co ions. The x-ray absorption fine structure analyses at Co K-edge indicate that a secondary phase of metallic Co clusters is formed in the Zn 0.92Co0.08O film. However, Cr-codoping suppresses the formation of Co clusters, so that all doped Co ions occupy the substitutional sites in ZnO. The ability of Cr in mediating Co distribution, as revealed by first-principles calculations, arises from the strong hybridization between the Co 3d states and the donor band induced by substitutional Cr ions, which facilitates the charge transfer from the donor band to the Co 3d states, changes the charge state of Co ions and modifies the electrostatic interactions among Co ions.

AB - The control over the distribution of magnetic ions in a host is crucial for the functionality of magnetically doped semiconductors. Herein, (Co,Cr)-codoped ZnO shows a possibility of Cr-codoping engineering in mediating the distribution of magnetic Co ions via manipulating the charge state of the Co ions. The x-ray absorption fine structure analyses at Co K-edge indicate that a secondary phase of metallic Co clusters is formed in the Zn 0.92Co0.08O film. However, Cr-codoping suppresses the formation of Co clusters, so that all doped Co ions occupy the substitutional sites in ZnO. The ability of Cr in mediating Co distribution, as revealed by first-principles calculations, arises from the strong hybridization between the Co 3d states and the donor band induced by substitutional Cr ions, which facilitates the charge transfer from the donor band to the Co 3d states, changes the charge state of Co ions and modifies the electrostatic interactions among Co ions.

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Mediating distribution of magnetic Co ions by Cr-codoping in (Co,Cr): ZnO thin films

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