Article citationsMore>>
Wang, Y., Xiao, J., Zhu, H., Li, Y., Alsaid, Y., Fong, K.Y., Zhou, Y., Wang, S., Shi, W., Wang, Y., Zettl, A., Reed, E.J. and Zhang, X. (2017) Structural Phase Transition in Monolayer MoTe2 Driven by Electrostatic Doping. Narure, 550, 487-491.
https://doi.org/10.1038/nature24043
has been cited by the following article:
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TITLE:
Tunning the Band Gap of 1T’-WTe2 by Uniaxial Strain
AUTHORS:
Jingyi Liu
KEYWORDS:
1T’-WTe2, Band Gap, Uniaxial Strain, GGA-1/2
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.10 No.3,
March
15,
2022
ABSTRACT: The QSH edge channels can be used to connect dissipationless nanoelectronic devices, when the topological edge states and the bulk states have the perfectly spaced. But the monolayer 1T’-WTe2 bulk state is metallic nature, with edge channel lengths around 100 nm, which hinders its further study. By simulating the different terminational edge states, using the GGA-1/2 method to calculate, we found a stable terminational edge state. And under strain engineering, fixed the a-axis, the band gap gradually increases with the b-axis tensile. When the tensile to 2.9%, the band gap increases to 245 meV. It greatly improves the application of 1T’-WTe2. During the phase transition of the material from half-metal to insulator, the topology of edge states remains unchanged, showing strong robustness. Thus introducing strain can make 1T’-WTe2 a suitable material for fundamental research or topological electronic devices.
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