Electronic and Thermoelectric Properties in Li-Based Half-Heusler Compounds: A First Principle Study

Y. Benazouzi, H. Rozale, M. Boukli Hacene, M. Khethir, A. Chahed, D. Lucache
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引用次数: 7

Abstract

Abstract In this paper, we performed a first principle study for new half-Heusler LiSrX(X= N, P, and As) working with WIEN2k code in the frame work of the density functional theory, and the Boltzmann theory. We estimated the exchange-correlation potential by the generalized gradient approximation (GGA). Energetically, the three compounds show a high stability in structure type2, we notice that the lattice constant increased while bulk modulus decreased in replacing the ions of size increasing. Based on our calculations, LiSrN, LiSrP, and LiSrAs compounds are mechanically stable, and show semiconductor nature with indirect band gaps of 1.21, 1.75 for LiSrN and LiSrAs, and direct band gap of 1.94 eV for LiSrP. The thermoelectric properties are calculated for LiSrX (X=N, P, and As) and they found a high power factor for the p-type doping concentration.
锂基半heusler化合物的电子和热电性质:第一性原理研究
本文在密度泛函理论和玻尔兹曼理论的框架下,对WIEN2k编码下的新型半heusler LiSrX(X= N, P, As)进行了第一性原理研究。我们用广义梯度近似(GGA)估计交换相关势。在能量上,这三种化合物在结构类型2上表现出较高的稳定性,我们注意到随着离子尺寸的增加,晶格常数增加而体积模量减小。计算结果表明,LiSrN、LiSrP和LiSrAs化合物力学稳定,具有半导体性质,LiSrN和LiSrAs的间接带隙为1.21 eV, LiSrP的直接带隙为1.94 eV。计算了LiSrX (X=N, P和As)的热电性质,发现P型掺杂浓度具有较高的功率因数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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