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Autori principali: Chaput, Laurent, Miranda, Henrique, Togo, Atsushi, Engel, Manuel, Schlipf, Martin, Marsman, Martijn, Kresse, Georg
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.15249
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author Chaput, Laurent
Miranda, Henrique
Togo, Atsushi
Engel, Manuel
Schlipf, Martin
Marsman, Martijn
Kresse, Georg
author_facet Chaput, Laurent
Miranda, Henrique
Togo, Atsushi
Engel, Manuel
Schlipf, Martin
Marsman, Martijn
Kresse, Georg
contents In this paper, we propose a computational framework, based on the VASP and phono3py computer codes, to obtain the thermoelectric figure of merit from the electron-phonon and phonon-phonon interactions using finite displacements in supercells. Several numerical techniques are developed for efficiency. The method is applied to several thermoelectric materials. We found different behaviors for the lifetimes of the electrons in PbTe, PbSe, and in compounds of the half-Heusler and magnesium silicide family. This is traced back to the different frequencies of the phonons involved in the scattering around the Fermi level. They have a lower frequency in PbTe and PbSe. The magnitude of the thermoelectric figures of merit we computed compare well with experiments, but the agreement is far from perfect. The role of the defects, not explicitly considered in our calculations, but abundant in thermoelectric materials, is discussed as a possible explanation. It is also shown that the choice of the exchange-correlation functional can strongly impact the results.
format Preprint
id arxiv_https___arxiv_org_abs_2511_15249
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Ab initio calculations of the thermoelectric figure of merit, within the relaxation time approximation
Chaput, Laurent
Miranda, Henrique
Togo, Atsushi
Engel, Manuel
Schlipf, Martin
Marsman, Martijn
Kresse, Georg
Materials Science
In this paper, we propose a computational framework, based on the VASP and phono3py computer codes, to obtain the thermoelectric figure of merit from the electron-phonon and phonon-phonon interactions using finite displacements in supercells. Several numerical techniques are developed for efficiency. The method is applied to several thermoelectric materials. We found different behaviors for the lifetimes of the electrons in PbTe, PbSe, and in compounds of the half-Heusler and magnesium silicide family. This is traced back to the different frequencies of the phonons involved in the scattering around the Fermi level. They have a lower frequency in PbTe and PbSe. The magnitude of the thermoelectric figures of merit we computed compare well with experiments, but the agreement is far from perfect. The role of the defects, not explicitly considered in our calculations, but abundant in thermoelectric materials, is discussed as a possible explanation. It is also shown that the choice of the exchange-correlation functional can strongly impact the results.
title Ab initio calculations of the thermoelectric figure of merit, within the relaxation time approximation
topic Materials Science
url https://arxiv.org/abs/2511.15249