Electronic transport and thermoelectricity in selenospinel Cu6-xFe4+xSn12Se32
Abstract
We report a study of selenospinel Cu6-xFe4+xSn12Se32 (x = 0, 1, 2) single crystals, which crystalize in a cubic structure with the Fd3m space group, and show typical semiconducting behavior. The large discrepancy between the activation energy for electrical conductivity E (32.3 69.8 meV), and for thermopower ES (3.2 11.5 meV), indicates a polaronic transport mechanism between 350 and 50 K. With decreasing temperature, it evolves into variable-range hopping conduction. Furthermore, the heat capacity shows a hump around 25(5) K and diverges from the Debye T3 law at low temperatures, indicating the observation of structural glassy features in these crystalline solids.
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