Structural Stability, Electronic, and Optical Properties of BiVO4 With Oxygen Vacancy Under Pressure

In this paper, first‐principles calculations are performed to investigate the elastic constants, structural stability, electronic properties, and optical properties of ideal BiVO4 and BiVO4 with oxygen vacancy (Vo‐BiVO4) under equivalent hydrostatic and z‐axial pressure. It is found that the structu...

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Bibliographic Details
Published in:physica status solidi (b) 2018-07, Vol.255 (7), p.n/a
Main Authors: Huang, Yuhong, Yuan, Yun, Ma, Fei, Zhang, Zongquan, Wei, Xiumei, Zhu, Gangqiang
Format: Article
Language:English
Subjects:
bismuth vanadate
BiVO4
electronic properties
optical properties
oxygen vacancy
pressure
structural stability
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Summary:In this paper, first‐principles calculations are performed to investigate the elastic constants, structural stability, electronic properties, and optical properties of ideal BiVO4 and BiVO4 with oxygen vacancy (Vo‐BiVO4) under equivalent hydrostatic and z‐axial pressure. It is found that the structural stability of the material is not affected and the indirect band‐gap is well kept in BiVO4 and Vo‐BiVO4, independent of the applied pressure. Essentially, as the equivalent hydrostatic and z‐axial pressure is increased, the hybridization of O 2p, V 3d, and Bi 6s orbitals will be enhanced in the ideal BiVO4, while the hybridization of O 2p, V 3d, and Bi 6p orbitals is enhanced in Vo‐BiVO4. Moreover, the band edges are shifted to lower energies under pressure, resulting in substantially reduced band gap, which might facilitate the photocatalytic performance. The shape of the optical spectrum of ideal BiVO4 displays an exponential form while that of Vo‐BiVO4 shows leaf‐like form in the low energy range, although they have similar shapes in the whole energy range. The absorption amount increases with the increase of z‐axial pressure, which might improve the visible light absorption. The elastic constants, structural stability, electronic and optical properties of ideal BiVO4 and Vo‐BiVO4 under equivalent hydrostatic and z‐axial pressure are investigated in this paper. It is found that the external pressure does not affect the structural stability and the indirect band‐gap characteristics. The band gap decreases with increasing pressure while the absorption amount increases with the increase of z‐axial pressure, which might facilitate the photocatalytic performance and improve the visible light absorption.
ISSN:0370-1972
1521-3951
DOI:10.1002/pssb.201700653