Abstract

The calculation of the electron–phonon coupling from first principles is computationally very challenging and remains mostly out of reach for systems with a large number of atoms. Semi-empirical methods, like density functional tight binding (DFTB), provide a framework for obtaining quantitative results at moderate computational costs. Herein, we present a new method based on the DFTB approach for computing electron–phonon couplings and relaxation times. It interfaces with phonopy for vibrational modes and dftb+ to calculate transport properties. We derive the electron–phonon coupling within a non-orthogonal tight-binding framework and apply them to graphene as a test case.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Studies of Molecular Dynamics and Electronic Structure in Cubic-SiC by Using Density Functional Tight Binding Approach
R.M.A Khalil ... Fayyaz Hussain
Journal of Materials and Physical Sciences | VOL. 2
R.M.A Khalil, et. al. R.M.A Khalil ... Fayyaz Hussain
31 Dec 2021
Performance study of the electronic and optical parameters of thermally activated delayed fluorescence nanosized emitters (CCX-I and CCX-II) via DFT, SCC-DFTB and B97-3c approaches
Siddheshwar Chopra
Journal of Nanostructure in Chemistry | VOL. 10
Siddheshwar ChopraSiddheshwar Chopra
19 Feb 2020
Comparative density functional theory and density functional tight binding study of arginine and arginine-rich cell penetrating peptide TAT adsorption on anatase TiO2.
Konstantinos Kotsis ... Wenxuan Li
Physical chemistry chemical physics : PCCP | VOL. 18
Konstantinos Kotsis, et. al.Konstantinos Kotsis ... Wenxuan Li
01 Jan 2015
A tribute to Thomas Frauenheim
Thomas Frauenheim
physica status solidi (b) | VOL. 249
Thomas FrauenheimThomas Frauenheim
19 Jan 2012
View more papers

More From: Journal of Computational Electronics

Paper Title
Journal
Date
Author
Implementation of a Boolean function with a double-gate vertical TFET (DGVTFET) using numerical simulations
Ribu Mathew ... Abhishek Kumar Upadhyay
Journal of Computational Electronics | VOL. -
Ribu Mathew, et. al.Ribu Mathew ... Abhishek Kumar Upadhyay
23 May 2024
Analytical investigation of thermodynamic properties of power electronic semiconductor materials
Zafer Dogan ... Tural Mehmetoglu
Journal of Computational Electronics | VOL. -
Zafer Dogan, et. al.Zafer Dogan ... Tural Mehmetoglu
19 May 2024
Application of the tight-binding method onto the Von Neumann equation
Alan Abdi ... Dirk Schulz
Journal of Computational Electronics | VOL. -
Alan Abdi, et. al.Alan Abdi ... Dirk Schulz
18 May 2024
Floating/grounded charged controlled memristor emulator using DVCCTA
Nidhee Bhuwal ... Deepika Gupta
Journal of Computational Electronics | VOL. -
Nidhee Bhuwal, et. al.Nidhee Bhuwal ... Deepika Gupta
16 May 2024
View more papers