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Biswas, Kanishka
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Publications (4/4 displayed)
- 2024Lattice Instability Induced Concerted Structural Distortion in Charged and van der Waals Layered GdTe<sub>3</sub>citations
- 2023Lattice Instability Induced Concerted Structural Distortion in Charged and van der Waals Layered GdTe$_3$citations
- 2021Structural, vibrational, and electronic properties of 1D-TlInTe2 under high pressure: a combined experimental and theoretical studycitations
- 2017Thermoelectric Properties of Highly-Crystallized Ge-Te-Se Glasses Doped with Cu/Bicitations
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article
Thermoelectric Properties of Highly-Crystallized Ge-Te-Se Glasses Doped with Cu/Bi
Abstract
International audience ; Chalcogenide semiconducting systems are of growing interest for mid-temperature range (~500 K) thermoelectric applications. In this work, Ge20Te77Se3 glasses were intentionally crystallized by doping with Cu and Bi. These effectively-crystallized materials of composition (Ge20Te77Se3) 100-x M x (M = Cu or Bi; x = 5, 10, 15), obtained by vacuum-melting and quenching techniques, were found to have multiple crystalline phases and exhibit increased electrical conductivity due to excess hole concentration. These materials also have ultra-low thermal conductivity, especially the heavily-doped (Ge20Te77Se3) 100−x Bi x (x = 10, 15) samples, which possess lattice thermal conductivity of ~0.7 Wm −1 K −1 at 525 K due to the assumable formation of nano-precipitates rich in Bi, which are effective phonon scatterers. Owing to their high metallic behavior, Cu-doped samples did not manifest as low thermal conductivity as Bi-doped samples. The exceptionally low thermal conductivity of the Bi-doped materials did not, alone, significantly enhance the thermoelectric figure of merit, zT. The attempt to improve the thermoelectric properties by crystallizing the chalcogenide glass compositions by excess doping did not yield power factors comparable with the state of the art thermoelectric materials, as these highly electrically conductive crystallized materials could not retain the characteristic high Seebeck coefficient values of semiconducting telluride glasses.