Issue 115, 2015
From the journal:

RSC Advances

Study of the enhanced electronic and thermoelectric (TE) properties of ZrxHf1−xyTayNiSn: a first principles study

D. P. Rai,*a   A. Shankar,b   Sandeep,b   M. P. Ghimire,c   R. Khenatad  and  R. K. Thapabc  

* Corresponding authors

a Department of Physics, Pachhunga University College, Aizawl, India-796001
E-mail: dibyaprakashrai@gmail.com

b Department of Physics, Mizoram University, Aizawl, India-796009

c Condensed Matter Physics Research Center, Butwal-13, Rupandehi, Lumbini, Nepal

d Laboratoire de Physique Quantique et de Modlisation Mathmatique (LPQ3M), Dpartement de Technologie, Universit de Mascara, 29000-Algeria

Abstract

A density functional theory (DFT) approach employing generalized gradient approximation (GGA) and the modified Becke Johnson (TB-mBJ) potential has been used to study the electronic and thermoelectric (TE) properties of ZrxHf1−xyTayNiSn. The presence of an indirect band gap at EF in the parent compound predicts this material to be a small band gap insulator. The substitution of Ta atoms at the Hf site increases the density of states (DOS) at EF which facilitates charge carrier mobility. The influence of Ta content increases the Seebeck coefficient and electrical conductivity, and suppresses the thermal conductivity; as a result the figure of merit ZT is enhanced. We report an increment in ZT value of 36% over the undoped system. The theoretical data were compared with the experimental results.

Graphical abstract: Study of the enhanced electronic and thermoelectric (TE) properties of ZrxHf1−x−yTayNiSn: a first principles study

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Article information

DOI
https://doi.org/10.1039/C5RA12897H
Article type
Paper
Submitted
02 Jul 2015
Accepted
23 Oct 2015
First published
26 Oct 2015

RSC Adv., 2015,5, 95353-95359

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Study of the enhanced electronic and thermoelectric (TE) properties of ZrxHf1−xyTayNiSn: a first principles study

D. P. Rai, A. Shankar, Sandeep, M. P. Ghimire, R. Khenata and R. K. Thapa, RSC Adv., 2015, 5, 95353 DOI: 10.1039/C5RA12897H

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