Polarization mechanism of oxygen vacancy and its influence on dielectric properties in ZnO

Li Na Wang; Xiao Yong Fang; Zhi Ling Hou; Ya Lin Li; Wang Kun; Jie Yuan; Mao Sheng Cao

doi:10.1088/0256-307X/28/2/027101

Polarization mechanism of oxygen vacancy and its influence on dielectric properties in ZnO

Li Na Wang, Xiao Yong Fang^*, Zhi Ling Hou, Ya Lin Li, Wang Kun, Jie Yuan, Mao Sheng Cao

^*Corresponding author for this work

School of Material Science and Engineering

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

15 Citations (Scopus)

Abstract

We report on the mechanism of the dielectric properties of oxygen vacancy in ZnO, using ab initio numerical simulations of oxygen vacancy on the band structure and dielectric properties, to develop photoelectric material applications. It is revealed that the appearance of oxygen vacancies leads to wider energy band gap, obvious blue shift and increase in the peak of dielectric function as compared to the intrinsic ZnO simulation. We explain these unusual phenomena and analyze the dielectric changes with the mechanism of polarization in the semiconductors. It is shown that the main mechanism of influencing dielectric properties is the electron displacement polarization. The result may be helpful for development of photoelectric materials.

Original language	English
Article number	027101
Journal	Chinese Physics Letters
Volume	28
Issue number	2
DOIs	https://doi.org/10.1088/0256-307X/28/2/027101
Publication status	Published - Feb 2011

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title = "Polarization mechanism of oxygen vacancy and its influence on dielectric properties in ZnO",

abstract = "We report on the mechanism of the dielectric properties of oxygen vacancy in ZnO, using ab initio numerical simulations of oxygen vacancy on the band structure and dielectric properties, to develop photoelectric material applications. It is revealed that the appearance of oxygen vacancies leads to wider energy band gap, obvious blue shift and increase in the peak of dielectric function as compared to the intrinsic ZnO simulation. We explain these unusual phenomena and analyze the dielectric changes with the mechanism of polarization in the semiconductors. It is shown that the main mechanism of influencing dielectric properties is the electron displacement polarization. The result may be helpful for development of photoelectric materials.",

author = "Wang, {Li Na} and Fang, {Xiao Yong} and Hou, {Zhi Ling} and Li, {Ya Lin} and Wang Kun and Jie Yuan and Cao, {Mao Sheng}",

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T1 - Polarization mechanism of oxygen vacancy and its influence on dielectric properties in ZnO

AU - Wang, Li Na

AU - Fang, Xiao Yong

AU - Hou, Zhi Ling

AU - Li, Ya Lin

AU - Kun, Wang

AU - Yuan, Jie

AU - Cao, Mao Sheng

PY - 2011/2

Y1 - 2011/2

N2 - We report on the mechanism of the dielectric properties of oxygen vacancy in ZnO, using ab initio numerical simulations of oxygen vacancy on the band structure and dielectric properties, to develop photoelectric material applications. It is revealed that the appearance of oxygen vacancies leads to wider energy band gap, obvious blue shift and increase in the peak of dielectric function as compared to the intrinsic ZnO simulation. We explain these unusual phenomena and analyze the dielectric changes with the mechanism of polarization in the semiconductors. It is shown that the main mechanism of influencing dielectric properties is the electron displacement polarization. The result may be helpful for development of photoelectric materials.

AB - We report on the mechanism of the dielectric properties of oxygen vacancy in ZnO, using ab initio numerical simulations of oxygen vacancy on the band structure and dielectric properties, to develop photoelectric material applications. It is revealed that the appearance of oxygen vacancies leads to wider energy band gap, obvious blue shift and increase in the peak of dielectric function as compared to the intrinsic ZnO simulation. We explain these unusual phenomena and analyze the dielectric changes with the mechanism of polarization in the semiconductors. It is shown that the main mechanism of influencing dielectric properties is the electron displacement polarization. The result may be helpful for development of photoelectric materials.

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SN - 0256-307X

VL - 28

JO - Chinese Physics Letters

JF - Chinese Physics Letters

IS - 2

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ER -

Polarization mechanism of oxygen vacancy and its influence on dielectric properties in ZnO

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