Indirect-Direct Band Transformation of Few-Layer BiOCl under Biaxial Strain

Zhongfei Xu; Weichang Hao; Qianfan Zhang; Zhongheng Fu; Haifeng Feng; Yi Du; Shixue Dou

doi:10.1021/acs.jpcc.5b12258

Indirect-Direct Band Transformation of Few-Layer BiOCl under Biaxial Strain

Zhongfei Xu
, Weichang Hao^*
, Qianfan Zhang
, Zhongheng Fu
, Haifeng Feng
, Yi Du
, Shixue Dou

^*Corresponding author for this work

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

31 Scopus citations

Abstract

Being a new two-dimensional layered compounds, the tunable indirect-direct band transformation of BiOCl with different layers can be realized by introducing the biaxial tensile or compressive strains. The band structure and stability of BiOCl with different layers are first researched to clarify the influence of layer numbers. A phase transformation of bilayer BiOCl and metallic characteristic for all are observed under large tensile and compressive strains, respectively. In addition, bond length, interlayer spacing, and band decomposed charge density are calculated to analyze the mechanism behind these phenomena. The results indicate that the band structure transformation is primarily related to the competitions between two kinds of intralayer and interlayer Bi-O bonds and hybridizations between atoms under strains.

Original language	English
Pages (from-to)	8589-8594
Number of pages	6
Journal	Journal of Physical Chemistry C
Volume	120
Issue number	16
DOIs	https://doi.org/10.1021/acs.jpcc.5b12258
State	Published - 28 Apr 2016

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title = "Indirect-Direct Band Transformation of Few-Layer BiOCl under Biaxial Strain",

abstract = "Being a new two-dimensional layered compounds, the tunable indirect-direct band transformation of BiOCl with different layers can be realized by introducing the biaxial tensile or compressive strains. The band structure and stability of BiOCl with different layers are first researched to clarify the influence of layer numbers. A phase transformation of bilayer BiOCl and metallic characteristic for all are observed under large tensile and compressive strains, respectively. In addition, bond length, interlayer spacing, and band decomposed charge density are calculated to analyze the mechanism behind these phenomena. The results indicate that the band structure transformation is primarily related to the competitions between two kinds of intralayer and interlayer Bi-O bonds and hybridizations between atoms under strains.",

author = "Zhongfei Xu and Weichang Hao and Qianfan Zhang and Zhongheng Fu and Haifeng Feng and Yi Du and Shixue Dou",

note = "Publisher Copyright: {\textcopyright} 2016 American Chemical Society.",

year = "2016",

month = apr,

day = "28",

doi = "10.1021/acs.jpcc.5b12258",

language = "英语",

volume = "120",

pages = "8589--8594",

journal = "Journal of Physical Chemistry C",

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}

TY - JOUR

T1 - Indirect-Direct Band Transformation of Few-Layer BiOCl under Biaxial Strain

AU - Xu, Zhongfei

AU - Hao, Weichang

AU - Zhang, Qianfan

AU - Fu, Zhongheng

AU - Feng, Haifeng

AU - Du, Yi

AU - Dou, Shixue

PY - 2016/4/28

Y1 - 2016/4/28

N2 - Being a new two-dimensional layered compounds, the tunable indirect-direct band transformation of BiOCl with different layers can be realized by introducing the biaxial tensile or compressive strains. The band structure and stability of BiOCl with different layers are first researched to clarify the influence of layer numbers. A phase transformation of bilayer BiOCl and metallic characteristic for all are observed under large tensile and compressive strains, respectively. In addition, bond length, interlayer spacing, and band decomposed charge density are calculated to analyze the mechanism behind these phenomena. The results indicate that the band structure transformation is primarily related to the competitions between two kinds of intralayer and interlayer Bi-O bonds and hybridizations between atoms under strains.

AB - Being a new two-dimensional layered compounds, the tunable indirect-direct band transformation of BiOCl with different layers can be realized by introducing the biaxial tensile or compressive strains. The band structure and stability of BiOCl with different layers are first researched to clarify the influence of layer numbers. A phase transformation of bilayer BiOCl and metallic characteristic for all are observed under large tensile and compressive strains, respectively. In addition, bond length, interlayer spacing, and band decomposed charge density are calculated to analyze the mechanism behind these phenomena. The results indicate that the band structure transformation is primarily related to the competitions between two kinds of intralayer and interlayer Bi-O bonds and hybridizations between atoms under strains.

UR - https://www.scopus.com/pages/publications/84966290840

U2 - 10.1021/acs.jpcc.5b12258

DO - 10.1021/acs.jpcc.5b12258

M3 - 文章

AN - SCOPUS:84966290840

SN - 1932-7447

VL - 120

SP - 8589

EP - 8594

JO - Journal of Physical Chemistry C

JF - Journal of Physical Chemistry C

IS - 16

ER -

Indirect-Direct Band Transformation of Few-Layer BiOCl under Biaxial Strain

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