Intrinsic ultralow lattice thermal conductivity of the unfilled skutterudite FeSb3

Abstract

It has been generally accepted that unfilled skutterudites process high lattice thermal conductivity (l) that can be efficiently reduced upon filling. Here by using first principles Boltzmann-Peierls transport calculations, we find pure skutterudite of FeSb3 with no filler in fact has an intrinsic ultralow l smaller than that of CoSb3 by one order of magnitude. The value is even smaller than those of most of the fully filled skutterudites. This finding means that with FeSb3 as a reference, filling does not necessarily lower l. The ultralow l of FeSb3 is a consequence of much softened optical phonon branches associated with the weakly bonded Sb4 rings. They overlap more with heat-carrying acoustic phonons and significantly increase the phase space for three-phonon anharmonic scattering processes. This provides an alternative non-filling related mechanism for lowering the l of skutterudites.