Effect of intrinsic oxygen vacancy on the electronic structure of β-Bi 2O 3: First-principles calculations

Hongyan Deng; Weichang Hao; Huaizhe Xu; Chunzhong Wang

doi:10.1021/jp2086895

Effect of intrinsic oxygen vacancy on the electronic structure of β-Bi ₂O ₃: First-principles calculations

Hongyan Deng
, Weichang Hao^*
, Huaizhe Xu
, Chunzhong Wang

^*Corresponding author for this work

School of Physics

Beihang University
Jilin University

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

48 Scopus citations

Abstract

Oxygen vacancy is an intrinsic defect in metal oxides, which has a great effect on the electronic structures and physical properties. The influence of the intrinsic oxygen vacancy on the crystal and electronic structures of β-Bi ₂O ₃ has been studied. Results show that the vacancy is preferred to occupy the tetrahedral O3 (8c) site. It makes β-Bi ₂O ₃ lose I23 symmetry and leads to flat band structure. The quadrivalence post-transition ions M ⁴⁺ (M = S, Se, or Te) doping can keep I23 symmetry by forming MO ₄ units, and can result in dispersive valence bands and energy levels in the band gaps. These characters are beneficial for the mobility of the photogenerated carriers.

Original language	English
Pages (from-to)	1251-1255
Number of pages	5
Journal	Journal of Physical Chemistry C
Volume	116
Issue number	1
DOIs	https://doi.org/10.1021/jp2086895
State	Published - 12 Jan 2012

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title = "Effect of intrinsic oxygen vacancy on the electronic structure of β-Bi 2O 3: First-principles calculations",

abstract = "Oxygen vacancy is an intrinsic defect in metal oxides, which has a great effect on the electronic structures and physical properties. The influence of the intrinsic oxygen vacancy on the crystal and electronic structures of β-Bi 2O 3 has been studied. Results show that the vacancy is preferred to occupy the tetrahedral O3 (8c) site. It makes β-Bi 2O 3 lose I23 symmetry and leads to flat band structure. The quadrivalence post-transition ions M 4+ (M = S, Se, or Te) doping can keep I23 symmetry by forming MO 4 units, and can result in dispersive valence bands and energy levels in the band gaps. These characters are beneficial for the mobility of the photogenerated carriers.",

author = "Hongyan Deng and Weichang Hao and Huaizhe Xu and Chunzhong Wang",

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T1 - Effect of intrinsic oxygen vacancy on the electronic structure of β-Bi 2O 3

T2 - First-principles calculations

AU - Deng, Hongyan

AU - Hao, Weichang

AU - Xu, Huaizhe

AU - Wang, Chunzhong

PY - 2012/1/12

Y1 - 2012/1/12

N2 - Oxygen vacancy is an intrinsic defect in metal oxides, which has a great effect on the electronic structures and physical properties. The influence of the intrinsic oxygen vacancy on the crystal and electronic structures of β-Bi 2O 3 has been studied. Results show that the vacancy is preferred to occupy the tetrahedral O3 (8c) site. It makes β-Bi 2O 3 lose I23 symmetry and leads to flat band structure. The quadrivalence post-transition ions M 4+ (M = S, Se, or Te) doping can keep I23 symmetry by forming MO 4 units, and can result in dispersive valence bands and energy levels in the band gaps. These characters are beneficial for the mobility of the photogenerated carriers.

AB - Oxygen vacancy is an intrinsic defect in metal oxides, which has a great effect on the electronic structures and physical properties. The influence of the intrinsic oxygen vacancy on the crystal and electronic structures of β-Bi 2O 3 has been studied. Results show that the vacancy is preferred to occupy the tetrahedral O3 (8c) site. It makes β-Bi 2O 3 lose I23 symmetry and leads to flat band structure. The quadrivalence post-transition ions M 4+ (M = S, Se, or Te) doping can keep I23 symmetry by forming MO 4 units, and can result in dispersive valence bands and energy levels in the band gaps. These characters are beneficial for the mobility of the photogenerated carriers.

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DO - 10.1021/jp2086895

M3 - 文章

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JO - Journal of Physical Chemistry C

JF - Journal of Physical Chemistry C

IS - 1

ER -

Effect of intrinsic oxygen vacancy on the electronic structure of β-Bi ₂O ₃: First-principles calculations

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