Journalartikel

Structure, Phase Composition, and Thermoelectric Properties of YbxCo4Sb12 and Their Dependence on Synthesis Method


AutorenlisteRyll, Britta; Schmitz, Andreas; de Boor, Johannes; Franz, Alexandra; Whitfield, Pamela S.; Reehuis, Manfred; Hoser, Andreas; Mueller, Eckhard; Habicht, Klaus; Fritscht, Katharina

Jahr der Veröffentlichung2018

Seiten113-122

ZeitschriftACS Applied Energy Materials

Bandnummer1

Heftnummer1

ISSN2574-0962

DOI Linkhttps://doi.org/10.1021/acsaem.7b00015

VerlagAmerican Chemical Society


Abstract
We present a combined microscopic and macroscopic study of YbxCo4Sb12 skutterudites for a range of nominal filling fractions, 0.15 < x < 0.75. The samples were synthesized using two different methods - a melt-quench-annealing route in evacuated quartz ampoules and a non-equilibrium ball-mill route - for which we directly compare the crystal structure and phase composition as well as the thermoelectric properties. Rietveld refinements of high-quality neutron powder diffraction data reveal about a 30-40% smaller Yb occupancy on the crystallographic 2a site than nominally expected for both synthesis routes. We observe a maximum filling fraction of at least 0.439(7) for a sample synthesized by the ball-mill routine, exceeding theoretical predictions of the filling fraction limit of 0.2-0.3. A single secondary phase of CoSb2 is observed in ball-mill-synthesized samples, while two secondary phases, CoSb2 and YbSb2, are detected for samples prepared by the ampoule route. A detrimental influence of the secondary phases on the thermoelectric properties is observed for secondary-phase fractions larger than 8 wt % regardless of the kind of secondary phase. The largest figure of merit of all samples with a ZT similar to 1.0 at 723 K is observed for the sample with a refined Yb content of x(2a) = 0.159(3), synthesized by the ampoule route.



Zitierstile

Harvard-ZitierstilRyll, B., Schmitz, A., de Boor, J., Franz, A., Whitfield, P., Reehuis, M., et al. (2018) Structure, Phase Composition, and Thermoelectric Properties of YbxCo4Sb12 and Their Dependence on Synthesis Method, ACS Applied Energy Materials, 1(1), pp. 113-122. https://doi.org/10.1021/acsaem.7b00015

APA-ZitierstilRyll, B., Schmitz, A., de Boor, J., Franz, A., Whitfield, P., Reehuis, M., Hoser, A., Mueller, E., Habicht, K., & Fritscht, K. (2018). Structure, Phase Composition, and Thermoelectric Properties of YbxCo4Sb12 and Their Dependence on Synthesis Method. ACS Applied Energy Materials. 1(1), 113-122. https://doi.org/10.1021/acsaem.7b00015



Schlagwörter

ball millCOSB3 SKUTTERUDITESfigure of meritFILLED SKUTTERUDITE ANTIMONIDESFILLING FRACTIONHEATmelt-quench-annealneutron powder diffractionN-TYPE SKUTTERUDITESSkutteruditeThermoelectric materialsTHERMOELECTRIC PROPERTIESTRANSPORT-PROPERTIESYB


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