A DFT insight of the electronic, thermodynamic, and thermoelectric properties of RuO2

IF 2.9 Q3 CHEMISTRY, PHYSICAL
E Maskar, A Fakhim Lamrani, R Zosiamliana and D P Rai
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引用次数: 0

Abstract

In this study, we explore the structural, electronic, thermodynamic, and thermoelectric properties of RuO2 using density functional theory. The derived equilibrium structural parameters agree with other theoretical and experimental results. The widely used modified Becke–Johnson (mBJ-GGA) potential is adopted for accurate electronic band gap estimation. To incorporate the effect of the extended orbital of the Ru atom, spin-orbit coupling has been used in combination with the mBJ potential. The investigation of electronic properties revealed an indirect semi-conducting nature with a band gap along the W-L symmetry. The calculated band gaps are 1.685 and 1.658 eV from mBJ and mBJ + SOC, respectively. The dynamical stability is tested and verified by calculating the phonon dispersion curve. We have employed the quasiharmonic approximation-based Gibbs2 package to determine the pressure and temperature-dependent thermodynamical parameters, such as cell volume, Debye temperature, heat capacity, entropy, and thermal expansion coefficient. This study uses the BoltzTraP simulation algorithm to determine the thermoelectric parameters such as the Seebeck coefficient, electrical conductivity, and thermal conductivity.
通过 DFT 深入了解 RuO2 的电子、热力学和热电特性
在本研究中,我们利用密度泛函理论探讨了 RuO2 的结构、电子、热力学和热电性能。得出的平衡结构参数与其他理论和实验结果一致。为了准确估计电子带隙,采用了广泛使用的修正贝克-约翰逊(mBJ-GGA)势。为了将 Ru 原子扩展轨道的影响考虑在内,结合 mBJ 电位使用了自旋轨道耦合。对电子特性的研究表明,该化合物具有间接半导性质,其带隙沿 W-L 对称性分布。计算得出的 mBJ 和 mBJ + SOC 带隙分别为 1.685 和 1.658 eV。通过计算声子色散曲线,我们测试并验证了其动力学稳定性。我们采用基于准谐波近似的 Gibbs2 软件包来确定与压力和温度相关的热力学参数,如电池体积、Debye 温度、热容量、熵和热膨胀系数。本研究使用 BoltzTraP 仿真算法确定热电参数,如塞贝克系数、电导率和热导率。
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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来源期刊
CiteScore
3.70
自引率
11.50%
发文量
46
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