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Vacancy defect control of colossal thermopower in FeSb2

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arxiv 2008.08614 v1 pith:WTXC7SGC submitted 2020-08-19 cond-mat.mtrl-sci

Vacancy defect control of colossal thermopower in FeSb2

classification cond-mat.mtrl-sci
keywords thermopowercolossaldefectatomiccontroldefectsfesb2scattering
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Iron diantimonide is a material with the highest known thermoelectric power. By combining scanning transmission electron microscope study with electronic transport neutron, X-ray scattering and first principle calculation we identify atomic defects that control colossal thermopower magnitude and nanoprecipitate clusters with Sb vacancy ordering which induce additional phonon scattering and substantially reduce thermal conductivity. Defects are found to cause rather weak but important monoclinic distortion of the unit cell Pnnm to Pm. The absence of Sb along [010] for high defect concentration forms conducting path due to Fe d orbital overlap. The connection between atomic defect anisotropy and colossal thermopower in FeSb2 paves the way for the understanding and tailoring of giant thermopower in related materials.

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