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Main Authors: Hussain, Ghulam, Manzoor, Mumtaz, Iqbal, Muhammad Waqas, Muhammad, Imran, Bafekry, Asadollah, Ullah, Hamid, Autieri, Carmine
Format: Preprint
Published: 2022
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Online Access:https://arxiv.org/abs/2205.08863
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author Hussain, Ghulam
Manzoor, Mumtaz
Iqbal, Muhammad Waqas
Muhammad, Imran
Bafekry, Asadollah
Ullah, Hamid
Autieri, Carmine
author_facet Hussain, Ghulam
Manzoor, Mumtaz
Iqbal, Muhammad Waqas
Muhammad, Imran
Bafekry, Asadollah
Ullah, Hamid
Autieri, Carmine
contents We used first-principles calculations to investigate the laterally stitched monolayered MoSi2N4/XSi2N4 (X=W, Ti) 2D heterostructures. The structural stability of such heterostructures is confirmed by the phonon spectra exhibiting no negative frequencies. From the electronic band structures, the MoSi2N4/WSi2N4-lateral heterostructure (MWLH) shows semiconducting nature with an indirect bandgap of 2.35 eV, while the MoSi2N4/TiSi2N4-lateral heterostructure (MTLH) revealed metallic behavior. Moreover, the effect of biaxial strain on the electronic and optical properties of MWLH is studied, which indicated substantial modifications in their electronic and optical spectra. In particular, an indirect to direct bandgap semiconducting transition can be achieved in MWLH via compressive strain. Besides, the absorbance, transmittance and reflectance spectra can effectively be tuned by means of biaxial strain. Our findings provide insights into the strain engineering of electronic and optical features, which could pave the way for future nano- and optoelectronic applications.
format Preprint
id arxiv_https___arxiv_org_abs_2205_08863
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Strain Modulated Electronic and Optical Properties of Laterally Stitched MoSi2N4/XSi2N4 (X=W, Ti) 2D Heterostructures
Hussain, Ghulam
Manzoor, Mumtaz
Iqbal, Muhammad Waqas
Muhammad, Imran
Bafekry, Asadollah
Ullah, Hamid
Autieri, Carmine
Materials Science
We used first-principles calculations to investigate the laterally stitched monolayered MoSi2N4/XSi2N4 (X=W, Ti) 2D heterostructures. The structural stability of such heterostructures is confirmed by the phonon spectra exhibiting no negative frequencies. From the electronic band structures, the MoSi2N4/WSi2N4-lateral heterostructure (MWLH) shows semiconducting nature with an indirect bandgap of 2.35 eV, while the MoSi2N4/TiSi2N4-lateral heterostructure (MTLH) revealed metallic behavior. Moreover, the effect of biaxial strain on the electronic and optical properties of MWLH is studied, which indicated substantial modifications in their electronic and optical spectra. In particular, an indirect to direct bandgap semiconducting transition can be achieved in MWLH via compressive strain. Besides, the absorbance, transmittance and reflectance spectra can effectively be tuned by means of biaxial strain. Our findings provide insights into the strain engineering of electronic and optical features, which could pave the way for future nano- and optoelectronic applications.
title Strain Modulated Electronic and Optical Properties of Laterally Stitched MoSi2N4/XSi2N4 (X=W, Ti) 2D Heterostructures
topic Materials Science
url https://arxiv.org/abs/2205.08863