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Main Authors: Biswas, Poulami, Rahaman, Mahabubur, De Raychaudhury, Molly
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.09475
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author Biswas, Poulami
Rahaman, Mahabubur
De Raychaudhury, Molly
author_facet Biswas, Poulami
Rahaman, Mahabubur
De Raychaudhury, Molly
contents The thermoelectric (TE) properties of quaternary Heusler alloys (CoX'ZrAl; X'= V, Fe, Ir) are studied in the framework of Density Functional Theory and Boltzmann Transport Theory. The compound CoVZrAl is found to be semiconducting and the most difficult to be formed whereas the easier formed newly-predicted CoFeZrAl and CoIrZrAl are pseudo-gapped and half-metal respectively. Ferromagnetic calculations show magnetism in CoVZrAl and CoIrZrAl originating from the non-bonding Co-X' fully-filled t1u state and partially-filled eu state derived from Co-3d and X'-3d and 5d electrons respectively while CoFeZrAl is non-magnetic. The two-dimensional graphene-like density of states at the Fermi level in CoFeZrAl implies large electrical conductivity. We further observe that the presence of two 3d early Transition metal (TM) atoms enhances the Seebeck coefficient as in CoVZrAl and CoFeZrAl and the presence of extended 5d state of Ir diminishes the same for CoIrZrAl. However the higher thermal conductivity in CoFeZrAl renders CoVZrAl the best TE material among the three. The ZT value of n-type CoVZrAl is found to reach a higher value 1.4 at 600 K.
format Preprint
id arxiv_https___arxiv_org_abs_2506_09475
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Stability, electronic, magnetic and thermoelectric properties of quaternary Heusler alloys CoX'ZrAl (X'=V, Fe, Ir): 3d vs 5d systems
Biswas, Poulami
Rahaman, Mahabubur
De Raychaudhury, Molly
Materials Science
The thermoelectric (TE) properties of quaternary Heusler alloys (CoX'ZrAl; X'= V, Fe, Ir) are studied in the framework of Density Functional Theory and Boltzmann Transport Theory. The compound CoVZrAl is found to be semiconducting and the most difficult to be formed whereas the easier formed newly-predicted CoFeZrAl and CoIrZrAl are pseudo-gapped and half-metal respectively. Ferromagnetic calculations show magnetism in CoVZrAl and CoIrZrAl originating from the non-bonding Co-X' fully-filled t1u state and partially-filled eu state derived from Co-3d and X'-3d and 5d electrons respectively while CoFeZrAl is non-magnetic. The two-dimensional graphene-like density of states at the Fermi level in CoFeZrAl implies large electrical conductivity. We further observe that the presence of two 3d early Transition metal (TM) atoms enhances the Seebeck coefficient as in CoVZrAl and CoFeZrAl and the presence of extended 5d state of Ir diminishes the same for CoIrZrAl. However the higher thermal conductivity in CoFeZrAl renders CoVZrAl the best TE material among the three. The ZT value of n-type CoVZrAl is found to reach a higher value 1.4 at 600 K.
title Stability, electronic, magnetic and thermoelectric properties of quaternary Heusler alloys CoX'ZrAl (X'=V, Fe, Ir): 3d vs 5d systems
topic Materials Science
url https://arxiv.org/abs/2506.09475