Effects of partial la filling and Sb vacancy defects on CoS b3 skutterudites

Chongze Hu, Xiaoyu Zeng, Yufei Liu, Menghan Zhou, Huijuan Zhao, Terry M. Tritt, Jian He, Jacek Jakowski, Paul R.C. Kent, Jingsong Huang, Bobby G. Sumpter

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30 Scopus citations

Abstract

Over the past decade, the open frame ("cagey") structure of CoSb3 skutterudite has invited intensive filling studies with various rare-earth elements for delivering state-of-the-art midtemperature thermoelectric performance. To rationalize previously reported experimental results and provide new insight into the underexplored roles of La fillers and Sb vacancies, ab initio density functional theory studies, along with semiclassical Boltzmann transport theory calculations, are performed for pristine CoSb3 of different lattice settings and La-filled CoSb3 with and without Sb's mono- and divacancy defects. The effects of spin-orbit coupling (SOC), partial La filling, Sb vacancy defects, and spin polarization on the electronic and thermoelectric properties are systematically examined. The SOC shows minor effects on the electronic and thermoelectric properties of CoSb3. The peculiar quasi-Dirac band in the pristine CoSb3 largely survives La filling but not Sb vacancies, which instead introduce dispersive bands in the band gap region. The non-spin-polarized and spin-polarized solutions of La-filled CoSb3 are nearly degenerate. Importantly, the band structure, density of states, and Fermi surface of the latter are significantly spin polarized, giving rise to spin-dependent thermoelectric properties. Seebeck coefficients directly calculated as a function of chemical potential are interpreted in connection with the electronic structures. Temperature-dependent Seebeck coefficients derived for the experimentally studied materials agree well with available experimental data. Seebeck coefficients obtained as a function of charge carrier concentration corroborate the thermoelectrically favorable role at high filling fractions played by the Fermi electron pockets associated with the degenerate valleys in the conduction bands, and also point toward a similar role of the Fermi hole pockets associated with the degenerate hills in the valence bands. These results serve to advance the understanding of CoSb3 skutterudite, a class of materials with important fundamental and application implications for thermoelectrics and spintronics.

Original languageEnglish
Article number165204
JournalPhysical Review B
Volume95
Issue number16
DOIs
StatePublished - Apr 25 2017

Funding

The work also utilized computational resources of the National Energy Research Scientific Computing Center (NERSC), which are supported by the Office of Science of the U.S. DOE under Contract No. DE-AC02-05CH11231. C.H., Y.F.L., M.H.Z., and J.H. would like to acknowledge the support of National Science Foundation Grant No. DMR 1307740.

FundersFunder number
National Science FoundationDMR 1307740
U.S. Department of EnergyDE-AC02-05CH11231
Office of Science

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