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Reduced thermal conductivity of TiNiSn/HfNiSn superlattices

Diminution of the thermal conductivity is a crucial aspect in thermoelectric research. We report a systematic and significant reduction of the cross-plane thermal conductivity in a model system consisting of DC sputtered TiNiSn and HfNiSn half-Heusler superlattices. The reduction of $κ$ is measured by the 3$ω$ method and originates from phonon scattering at the internal interfaces. Heat transport in the superlattices is calculated based on Boltzmann transport theory, including a diffusive mismatch model for the phonons at the internal interfaces. Down to superlattice periodicity of 3 nm the phonon spectrum mismatch between the superlattice components quantitatively explains the reduction of $κ$. For very thin individual layers the interface model breaks down and the artificial crystal shows an enhanced $κ$. We also present an enhanced ZT value for all investigated superlattices compared to the single TiNiSn and HfNiSn films.

preprint2015arXivOpen access
Paulina HołujChristoph EulerBenjamin BalkeUte KolbGregor FiedlerMathis M. MüllerTino JaegerPeter KratzerGerhard Jakob
cond-mat.mtrl-sci
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Paulina HołujChristoph EulerBenjamin BalkeUte KolbGregor FiedlerMathis M. MüllerTino JaegerPeter KratzerGerhard Jakob

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