Resonant defect states and strong lattice relaxation of oxygen vacancies in WO3

S. Zh Karazhanov; Yong Zhang; L. W. Wang; A. Mascarenhas; S. Deb

doi:10.1103/PhysRevB.68.233204

Resonant defect states and strong lattice relaxation of oxygen vacancies in WO₃

S. Zh Karazhanov
, Yong Zhang
, L. W. Wang
, A. Mascarenhas
, S. Deb

National Renewable Energy Laboratory
Lawrence Berkeley National Laboratory

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

42 Citations (Scopus)

Abstract

We find, from first principles calculations, that an oxygen (anion) vacancy in WO₃ not only generates a donorlike state near the fundamental band gap, derived from the top valence bands, but also gives rise to an additional pair of defect states: a hyper-deep resonant state in the valence band and a high-lying resonant state in the conduction band, derived from s-like bonding and antibonding bands, respectively. These states show distinctively different properties from their counterparts in other conventional semiconductors. With a change in the charge state of the vacancy, a strong lattice relaxation is found for the W ions nearest to the vacancy, accompanied by large changes in the energies of all the defect states.

Original language	English
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	68
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevB.68.233204
Publication status	Published - 15 Dec 2003
Externally published	Yes

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title = "Resonant defect states and strong lattice relaxation of oxygen vacancies in WO3",

abstract = "We find, from first principles calculations, that an oxygen (anion) vacancy in WO3 not only generates a donorlike state near the fundamental band gap, derived from the top valence bands, but also gives rise to an additional pair of defect states: a hyper-deep resonant state in the valence band and a high-lying resonant state in the conduction band, derived from s-like bonding and antibonding bands, respectively. These states show distinctively different properties from their counterparts in other conventional semiconductors. With a change in the charge state of the vacancy, a strong lattice relaxation is found for the W ions nearest to the vacancy, accompanied by large changes in the energies of all the defect states.",

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AU - Karazhanov, S. Zh

AU - Zhang, Yong

AU - Wang, L. W.

AU - Mascarenhas, A.

AU - Deb, S.

PY - 2003/12/15

Y1 - 2003/12/15

N2 - We find, from first principles calculations, that an oxygen (anion) vacancy in WO3 not only generates a donorlike state near the fundamental band gap, derived from the top valence bands, but also gives rise to an additional pair of defect states: a hyper-deep resonant state in the valence band and a high-lying resonant state in the conduction band, derived from s-like bonding and antibonding bands, respectively. These states show distinctively different properties from their counterparts in other conventional semiconductors. With a change in the charge state of the vacancy, a strong lattice relaxation is found for the W ions nearest to the vacancy, accompanied by large changes in the energies of all the defect states.

AB - We find, from first principles calculations, that an oxygen (anion) vacancy in WO3 not only generates a donorlike state near the fundamental band gap, derived from the top valence bands, but also gives rise to an additional pair of defect states: a hyper-deep resonant state in the valence band and a high-lying resonant state in the conduction band, derived from s-like bonding and antibonding bands, respectively. These states show distinctively different properties from their counterparts in other conventional semiconductors. With a change in the charge state of the vacancy, a strong lattice relaxation is found for the W ions nearest to the vacancy, accompanied by large changes in the energies of all the defect states.

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JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

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ER -

Resonant defect states and strong lattice relaxation of oxygen vacancies in WO₃

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