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Multiband Transport in CoSb3 Prepared by Rapid Solidification
Authors:Matthias Ikeda  Petr Tomeš  Lukas Prochaska  James Eilertsen  Sascha Populoh  Stefan Löffler  Robert Svagera  Monika Waas  Herbert Sassik  Anke Weidenkaff  Silke Paschen
Affiliation:1. Institute of Solid State Physics, TU Wien, Wiedner Hauptstr. 8–10, 1040 Vienna, Austria;2. Solid State Chemistry and Catalysis, Empa, überlandstr. 129, 8600 Dübendorf, Switzerland;3. University Service Centre for Transmission Electron Microscopy, TU Wien, Wiedner Hauptstr. 8–10, 1040 Vienna, Austria;4. Institute for Materials Science, University of Stuttgart, Heisenbergstr. 3, Stuttgart, Germany
Abstract:Nano‐grained CoSb3 was prepared by melt‐spinning and subsequent spark plasma sintering. The phonon thermal conductivity of skutterudites is known to be sensitive to the kind and the amount of guest atoms. Thus, unfilled CoSb3 can serve as model compound to study the impact of a nanostructure on the thermoelectric properties, especially the phonon thermal conductivity. Therefore, a series of materials was prepared differing only by the cooling speed during the quenching procedure. In contrast to clathrates, the microstructure of meltspun CoSb3 was found to be sensitive to the cooling speed. Although the phonon thermal conductivity, studied by means of Flash and 3ω measurements, was found to be correlated with the grain size, the bulk density of the sintered materials had an even stronger impact. Interestingly, the reduced bulk density did not result in an increased electrical resistivity. The influence of Sb and CoSb2 as foreign phase on the electronic properties of CoSb3 was revealed by a multi‐band Hall effect analysis. While CoSb2 increases the charge carrier density, the influence of the highly mobile charge carriers introduced by elemental Sb on the thermoelectric properties of the composite offer an interesting perspective for the preparation of efficient thermoelectric composite materials.
Keywords:Skutterudite  Multiband  Melt‐spinning
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