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Reduced thermal conductivity in Pb-alloyed AgSbTe2 thermoelectric materials

2012; Elsevier BV; Volume: 60; Issue: 17 Linguagem: Inglês

10.1016/j.actamat.2012.07.057

1873-2453

Hsin‐Jay Wu, Sinn-wen Chen, Teruyuki Ikeda, G. Jeffrey Snyder,

Thermal Radiation and Cooling Technologies

Pb-alloyed AgSbTe2 (PbxAg20Sb30−xTe50 (x = 3, 4, 5 and 6)) composites were synthesized using a modified Bridgman method with a graphite mold to form plate-like samples. The Bridgman-grown specimens were dense, with few solidification cavities, and were sufficiently mechanically robust for a variety of electronic/thermal transport measurements. Inhomogeneity was found on the grain boundary, and was embedded with the nanoprecipitates of δ-Sb2Te with a feature size of 100 nm of the 5 at.% Pb and 6 at.% Pb specimens. A combined effect of alloying, inhomogeneity and nanoprecipitates leads to a low thermal conductivity of 0.3–0.4 W m−1 K−1, which approaches the theoretical minimum thermal conductivity of the amorphous material (κmin ∼ 0.36 W m−1 K−1). A peak of the zT value, ranging from 0.7 to 0.8, is achieved at 425 K. Further annealing at 673 K increases the grain size and causes a reduction in the value of the zT peak to 0.4.