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Enhanced thermoelectric and mechanical properties of Bi <sub>0.5</sub> Sb <sub>1.5</sub> Te <sub>3</sub> alloy with dispersed yttrium oxide ceramic nanoparticles

Cuncheng Li, Mingwei Zhang, Jiwu Xin, Lei Wei, Wenyu Zhao

2024Rare Metals17 citationsDOI

Abstract

Abstract Reducing thermal conductivity while avoiding adverse interfacial reactions during sintering is crucial for improving the thermoelectric performance of Bi 2 Te 3 ‐based composites. Inert ceramic nanoparticles are good candidates for achieving this goal. In this study, we designed and prepared a series of p‐type Bi 0.5 Sb 1.5 Te 3 nanocomposites decorated with Y 2 O 3 ceramic nanoparticles via ball‐milling dispersion and spark‐plasma sintering. Owing to the chemical stability of the ceramics, no traces of atomic doping or interfacial reactions were observed. Transport measurements revealed that the Y 2 O 3 nanoparticles distributed along the grain boundaries acted as energy‐dependent carrier‐filtering centers to improve the scattering parameter and Seebeck coefficient, contributing to the elevated power factor even with a decreased electrical conductivity. Moreover, the incorporated Y 2 O 3 nanoparticles and various defect structures they induced effectively strengthened the phonon scattering and suppressed the lattice thermal conductivity. Consequently, a peak figure of merit ( ZT ) of 1.23 at 313 K was achieved for 0.4%Y 2 O 3 /Bi 0.5 Sb 1.5 Te 3 , which is 13% higher than that of the matrix. In addition, the Vickers hardness of the composite material was 35% higher than that of the matrix. This study demonstrates the effectiveness of ceramic nanoparticles in synergistically improving the thermoelectric and mechanical properties, which may be further extended to other thermoelectric systems.

Topics & Concepts

Materials scienceYttriumCeramicThermoelectric effectAlloyNanoparticleOxideComposite materialThermoelectric materialsMetallurgyNanotechnologyThermal conductivityPhysicsThermodynamicsAdvanced Thermoelectric Materials and DevicesThermal properties of materialsThermal Radiation and Cooling Technologies