“Glass-like” thermal conductivity gradually induced in thermoelectric Sr8Ga16Ge30 clathrate by off-centered guest atoms

Christensen, S; Schmøkel, MS; Borup, KA; Madsen, GKH; McIntyre, GJ; Capelli, SC; Christensen, M; Iversen, BB

“Glass-like” thermal conductivity gradually induced in thermoelectric Sr8Ga16Ge30 clathrate by off-centered guest atoms

Date

2016-05-10

Authors

Publisher

AIP Publishing

Abstract

The origin of the “glass-like” plateau in thermal conductivity of inorganic type I clathrates has been debated for more than a decade. Here, it is demonstrated that the low temperature thermal conductivity of Sr8Ga16Ge30 can be controlled by the synthesis method: A flux-grown sample has a “glass-like” plateau in thermal conductivity at low temperature, while a zone-melted sample instead has a crystalline peak. A combination of flux-growth and zone-melting produces an intermediate thermal conductivity. In a comprehensive study of three single crystal samples, it is shown by neutron diffraction that the transition from crystalline peak to “glass-like” plateau is related to an increase in Sr guest atom off-centering distance from 0.24 Å to 0.43 Å. By modifying ab initio calculated force constants for the guest atom to an isotropic model, we reproduce both measured heat capacity and inelastic neutron scattering data. The transition from peak to plateau in the thermal conductivity can be modeled by a combined increase of Rayleigh and disorder scattering. Measurement of heat capacity refutes simple models for tunneling of Sr between off-center sites. Furthermore, the electronic properties of the same samples are characterized by Hall carrier density, Seebeck coefficient, and resistivity. The present comprehensive analysis excludes tunneling and charge carrier scattering as dominant contributors to the “glass-like” plateau. The increased guest atom off-centering distance controlled by synthesis provides a possible microscopic mechanism for reducing the low temperature thermal conductivity of clathrates. © 2021 AIP Publishing LLC.

Keywords

Thermal conductivity, Temperature range 0065-0273 K, Neutron diffraction, Inelastic scattering, Specific heat, Electrical properties, Seebeck effect, Clathrates

Citation

Christensen, S., Schmøkel, M. S., Borup, K. A., Madsen, G. K. H., McIntyre, G. J., Capelli, S. C., Christensen, M., & Iversen, B. B. (2016). “Glass-like” thermal conductivity gradually induced in thermoelectric Sr8Ga16Ge30 clathrate by off-centered guest atoms. Journal of Applied Physics, 119, 185102. doi:10.1063/1.4948334