Band gap modulation effect on electronic and optical properties in PbTiO3under stress: A DFT study

Muhammad Rizwan; Rabia Bibi; Tariq Mahmood; Imran Aslam; Syed Sajid Ali Gillani; Hai Boa Jin; Chuan Bao Cao; Zahid Usman; Ahmad Maqsood

doi:10.1051/epjap/2019190178

Band gap modulation effect on electronic and optical properties in PbTiO₃under stress: A DFT study

Muhammad Rizwan^*
, Rabia Bibi
, Tariq Mahmood
, Imran Aslam
, Syed Sajid Ali Gillani
, Hai Boa Jin
, Chuan Bao Cao
, Zahid Usman
, Ahmad Maqsood

^*Corresponding author for this work

School of Material Science and Engineering

University of Gujrat
Beijing Institute of Technology
Government College Women University Sialkot
University of Engineering and Technology Lahore
Government College University Lahore
University of Education
University of the Punjab

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

17 Citations (Scopus)

Abstract

First principles calculation was implemented to explore the effect of band gap modulation under stress in cubic PbTiO3 by using generalized gradient approximation (GGA) and ultrasoft pseudo-potential (USP). The band gaps at different external pressures show indirect band nature with significant reduction in band gapes. The density of states indicated that the upper valence states were influenced by O-2p and in the meantime Ti-d states have main contribution in conduction band. The inclusion of external stress not only changes electronic structure but also significantly changes the optical properties such as complex dielectric function, absorption, energy loss function, refractive index and reflectivity. The shifting of absorption edges toward higher energies confirm the presence of blue shift and make this material an appealing candidate for optoelectronic devices.

Original language	English
Article number	10501
Journal	EPJ Applied Physics
Volume	88
Issue number	1
DOIs	https://doi.org/10.1051/epjap/2019190178
Publication status	Published - 1 Oct 2019

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title = "Band gap modulation effect on electronic and optical properties in PbTiO3under stress: A DFT study",

abstract = "First principles calculation was implemented to explore the effect of band gap modulation under stress in cubic PbTiO3 by using generalized gradient approximation (GGA) and ultrasoft pseudo-potential (USP). The band gaps at different external pressures show indirect band nature with significant reduction in band gapes. The density of states indicated that the upper valence states were influenced by O-2p and in the meantime Ti-d states have main contribution in conduction band. The inclusion of external stress not only changes electronic structure but also significantly changes the optical properties such as complex dielectric function, absorption, energy loss function, refractive index and reflectivity. The shifting of absorption edges toward higher energies confirm the presence of blue shift and make this material an appealing candidate for optoelectronic devices.",

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T2 - A DFT study

AU - Rizwan, Muhammad

AU - Bibi, Rabia

AU - Mahmood, Tariq

AU - Aslam, Imran

AU - Gillani, Syed Sajid Ali

AU - Jin, Hai Boa

AU - Cao, Chuan Bao

AU - Usman, Zahid

AU - Maqsood, Ahmad

PY - 2019/10/1

Y1 - 2019/10/1

N2 - First principles calculation was implemented to explore the effect of band gap modulation under stress in cubic PbTiO3 by using generalized gradient approximation (GGA) and ultrasoft pseudo-potential (USP). The band gaps at different external pressures show indirect band nature with significant reduction in band gapes. The density of states indicated that the upper valence states were influenced by O-2p and in the meantime Ti-d states have main contribution in conduction band. The inclusion of external stress not only changes electronic structure but also significantly changes the optical properties such as complex dielectric function, absorption, energy loss function, refractive index and reflectivity. The shifting of absorption edges toward higher energies confirm the presence of blue shift and make this material an appealing candidate for optoelectronic devices.

AB - First principles calculation was implemented to explore the effect of band gap modulation under stress in cubic PbTiO3 by using generalized gradient approximation (GGA) and ultrasoft pseudo-potential (USP). The band gaps at different external pressures show indirect band nature with significant reduction in band gapes. The density of states indicated that the upper valence states were influenced by O-2p and in the meantime Ti-d states have main contribution in conduction band. The inclusion of external stress not only changes electronic structure but also significantly changes the optical properties such as complex dielectric function, absorption, energy loss function, refractive index and reflectivity. The shifting of absorption edges toward higher energies confirm the presence of blue shift and make this material an appealing candidate for optoelectronic devices.

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DO - 10.1051/epjap/2019190178

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JO - EPJ Applied Physics

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M1 - 10501

ER -

Band gap modulation effect on electronic and optical properties in PbTiO₃under stress: A DFT study

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