Alfredo Fiorentino, Paolo Pegolo, Stefano Baroni, Davide Donadio
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Effects of colored disorder on the heat conductivity of SiGe alloys from first principles
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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