Insights into structural, Electronic and Thermoelectric properties of ZnTMN2 (TM= Zr and Hf): A First-Principles study

Pub Date : 2023-01-01 DOI:10.56042/ijpap.v61i11.3151
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Abstract

We employ first-principles calculations combined with semi classical Boltzmann transport theory to investigate the structural, electronic, and thermoelectric properties of ZnTMN2 (TM= Zr and Hf). The negative value of formation energy confirms the stability of these compounds. We used Tran Blaha modified Becke Johnson approximation to calculate electronic properties. ZnZrN2 and ZnHfN2 are having indirect bands of magnitude 2.77 eV and 3.31 eV, respectively. The positive value of the Seebeck Coefficient at all studied temperatures confirms its p-type nature. The thermal conductivity slightly decreases with a rise in temperature in ZnHfN2 as compared to ZnZrN2. The observed value of the figure of merit is 0.80 and 0.81 at 500 K and 600 K for ZnZrN2 and ZnHfN2, respectively. The high figure of merit of Hf and Zr-based nitrides make them a potential material for thermoelectric energy harvesting applications.
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ZnTMN2 (TM= Zr和Hf)结构、电子和热电性质的第一性原理研究
我们采用第一性原理计算结合半经典玻尔兹曼输运理论研究了ZnTMN2 (TM= Zr和Hf)的结构、电子和热电性质。形成能的负值证实了这些化合物的稳定性。我们使用Tran Blaha修正的Becke Johnson近似来计算电子性质。ZnZrN2和ZnHfN2的间接波段分别为2.77 eV和3.31 eV。塞贝克系数在所有研究温度下均为正值,证实了其p型性质。与ZnZrN2相比,随着温度的升高,ZnHfN2的导热系数略有下降。ZnZrN2和ZnHfN2在500 K和600 K时的优值分别为0.80和0.81。Hf和zr基氮化物的高性能使它们成为热电能量收集应用的潜在材料。
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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