Electric field modulation of the band gap, dielectric constant and polarizability in SnS atomically thin layers

Longfei Pan; Bingsuo Zou; Li Jie Shi

doi:10.1016/j.physleta.2016.04.044

Electric field modulation of the band gap, dielectric constant and polarizability in SnS atomically thin layers

Longfei Pan, Bingsuo Zou, Li Jie Shi^*

^*Corresponding author for this work

School of Physics

Beijing Institute of Technology

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

24 Citations (Scopus)

Abstract

The band structure and dielectric properties of multilayer SnS films have been investigated by density-functional theory total-energy calculations. It shows that electric field can tune the band gap of SnS multilayer and induce a phase transition from semiconductor to semi-metal. The critical electric field of phase transition for SnS bilayer is 0.09 V/Å, which is lower than MoS₂(0.3 V/Å), MoSe₂(0.25 V/Å), MoTe₂(0.2 V/Å), WS₂(0.27 V/Å) and WSe₂(0.20 V/Å). Combining the electric structure with dielectric properties, we explain the reason why multilayer SnS films are more sensitive to the electric field. The sensitive response character to electric field makes SnS multilayer as a potential material for the nano-electronic and nano-optical devices.

Original language	English
Pages (from-to)	2227-2232
Number of pages	6
Journal	Physics Letters, Section A: General, Atomic and Solid State Physics
Volume	380
Issue number	27-28
DOIs	https://doi.org/10.1016/j.physleta.2016.04.044
Publication status	Published - 2 Feb 2016

Keywords

Band gap
Dielectric properties
Electric field
Phase transition
SnS atomically thin layers

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abstract = "The band structure and dielectric properties of multilayer SnS films have been investigated by density-functional theory total-energy calculations. It shows that electric field can tune the band gap of SnS multilayer and induce a phase transition from semiconductor to semi-metal. The critical electric field of phase transition for SnS bilayer is 0.09 V/{\AA}, which is lower than MoS2(0.3 V/{\AA}), MoSe2(0.25 V/{\AA}), MoTe2(0.2 V/{\AA}), WS2(0.27 V/{\AA}) and WSe2(0.20 V/{\AA}). Combining the electric structure with dielectric properties, we explain the reason why multilayer SnS films are more sensitive to the electric field. The sensitive response character to electric field makes SnS multilayer as a potential material for the nano-electronic and nano-optical devices.",

keywords = "Band gap, Dielectric properties, Electric field, Phase transition, SnS atomically thin layers",

author = "Longfei Pan and Bingsuo Zou and Shi, \{Li Jie\}",

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AU - Pan, Longfei

AU - Zou, Bingsuo

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AB - The band structure and dielectric properties of multilayer SnS films have been investigated by density-functional theory total-energy calculations. It shows that electric field can tune the band gap of SnS multilayer and induce a phase transition from semiconductor to semi-metal. The critical electric field of phase transition for SnS bilayer is 0.09 V/Å, which is lower than MoS2(0.3 V/Å), MoSe2(0.25 V/Å), MoTe2(0.2 V/Å), WS2(0.27 V/Å) and WSe2(0.20 V/Å). Combining the electric structure with dielectric properties, we explain the reason why multilayer SnS films are more sensitive to the electric field. The sensitive response character to electric field makes SnS multilayer as a potential material for the nano-electronic and nano-optical devices.

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Electric field modulation of the band gap, dielectric constant and polarizability in SnS atomically thin layers

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Keywords

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