Breakdown of Phonon Glass Paradigm in La- and Ce-filled Fe4Sb12 Skutterudites

Overview

Journal Nat Mater

Date 2008 Sep 2

PMID 18758457

Citations 15

Authors

Michael Marek Koza

Mark Robert Johnson

Romain Viennois

Hannu Mutka

Luc Girard

Didier Ravot

Affiliations

Soon will be listed here.

Abstract

The material class of skutterudites is believed to have strong potential for thermoelectric application due to the very low thermal conductivity of the filled structures. It is generally assumed that the atoms filling the skutterudite cages act as 'rattlers' and essentially induce a disordered lattice dynamics referred to as 'phonon glass'. Here, we present neutron spectroscopy experiments and ab initio computational work on phonons in LaFe(4)Sb(12) and CeFe(4)Sb(12). Our results give unequivocal evidence of essentially temperature-independent lattice dynamics with well-defined phase relations between guest and host dynamics, indicative of a quasi-harmonic coupling between the guests and the host lattice. These conclusions are in disagreement with the 'phonon glass' paradigm based on individual 'rattling' of the guest atoms. These findings should have an essential impact on the design and improvement of thermoelectric materials and on the development of microscopic models needed for these efforts.

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