Effects of colored disorder on the heat conductivity of SiGe alloys from first principles

Alfredo Fiorentino, Paolo Pegolo, Stefano Baroni, Davide Donadio
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Abstract

Semiconducting alloys, in particular SiGe, have been employed for several decades as high-temperature thermoelectric materials. Devising strategies to reduce their thermal conductivity may provide a substantial improvement in their thermoelectric performance also at lower temperatures. We have carried out an ab initio investigation of the thermal conductivity of SiGe alloys with random and spatially correlated mass disorder employing the Quasi-Harmonic Green-Kubo (QHGK) theory with force constants computed by density functional theory. Leveraging QHGK and the hydrodynamic extrapolation to achieve size convergence, we obtained a detailed understanding of lattice heat conduction in SiGe and demonstrated that colored disorder suppresses thermal transport across the acoustic vibrational spectrum, leading to up to a 4-fold enhancement in the intrinsic thermoelectric figure of merit.
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从第一原理看有色无序对 SiGe 合金导热性的影响
几十年来,半导体合金,尤其是硅锗合金,一直被用作高温热电材料。降低其热导率的策略可能会大大改善其在较低温度下的热电性能。我们采用 Quasi-HarmonicGreen-Kubo (QHGK) 理论和密度泛函理论计算的力常量,对具有随机和空间相关质量无序的 SiGe 合金的热导率进行了原子序数研究。利用 QHGK 和流体力学外推法来实现尺寸收敛,我们获得了对 SiGe 中晶格热传导的详细理解,并证明了有色无序抑制了声学振动光谱上的热传导,从而导致本征热电功勋值提高了 4 倍。
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