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Suppression of Structural Phase Transition in VO2 by Epitaxial Strain in Vicinity of Metal-insulator Transition

by Wang, Liangxin , Gu, Yueliang , Gao, Xingyu , Xu, Han , Ju, Huanxin , Dong, Yongqi , Chen, Haiping , Song, Li , Bin Hong , Luo, Zhenlin , Gao, Chen , Bao, Jun , Hu, Kai , Zhao, Jiangtao , Yang, Tieying , Huang, Haoliang , Li, Xiaoguang , Yang, Yuanjun , Zhu, Junfa , Yang, Mengmeng

in 140/146 / 639/301 / 639/766 / Humanities and Social Sciences / multidisciplinary / Phase transitions / Photoelectron spectroscopy / Raman spectroscopy / Science / Spectroscopy / Spectrum analysis / Temperature effects / Thin films / Titanium dioxide / X-ray diffraction

2016

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Suppression of Structural Phase Transition in VO2 by Epitaxial Strain in Vicinity of Metal-insulator Transition

2016

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Suppression of Structural Phase Transition in VO2 by Epitaxial Strain in Vicinity of Metal-insulator Transition

2016

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Journal Article

Suppression of Structural Phase Transition in VO2 by Epitaxial Strain in Vicinity of Metal-insulator Transition

Wang, Liangxin,

Gu, Yueliang,

Gao, Xingyu,

Xu, Han,

Ju, Huanxin,

Dong, Yongqi,

Chen, Haiping,

Song, Li,

Bin Hong,

Luo, Zhenlin,

Gao, Chen,

Bao, Jun,

Hu, Kai,

Zhao, Jiangtao,

Yang, Tieying,

Huang, Haoliang,

Li, Xiaoguang,

Yang, Yuanjun,

Zhu, Junfa,

Yang, Mengmeng

2016

Overview

Mechanism of metal-insulator transition (MIT) in strained VO 2 thin films is very complicated and incompletely understood despite three scenarios with potential explanations including electronic correlation (Mott mechanism), structural transformation (Peierls theory) and collaborative Mott-Peierls transition. Herein, we have decoupled coactions of structural and electronic phase transitions across the MIT by implementing epitaxial strain on 13-nm-thick (001)-VO 2 films in comparison to thicker films. The structural evolution during MIT characterized by temperature-dependent synchrotron radiation high-resolution X-ray diffraction reciprocal space mapping and Raman spectroscopy suggested that the structural phase transition in the temperature range of vicinity of the MIT is suppressed by epitaxial strain. Furthermore, temperature-dependent Ultraviolet Photoelectron Spectroscopy (UPS) revealed the changes in electron occupancy near the Fermi energy E F of V 3d orbital, implying that the electronic transition triggers the MIT in the strained films. Thus the MIT in the bi-axially strained VO 2 thin films should be only driven by electronic transition without assistance of structural phase transition. Density functional theoretical calculations further confirmed that the tetragonal phase across the MIT can be both in insulating and metallic states in the strained (001)-VO 2 /TiO 2 thin films. This work offers a better understanding of the mechanism of MIT in the strained VO 2 films.

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Publisher

Nature Publishing Group UK,Nature Publishing Group

Subject

140/146

/ 639/301

/ 639/766

/ Humanities and Social Sciences

/ multidisciplinary

/ Phase transitions

/ Photoelectron spectroscopy