Journal
MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING
Volume 40, Issue -, Pages 453-462Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.mssp.2015.06.016
Keywords
Thermoelectric; Solvothermal reaction and hot pressing; Microstructure characterization; Thermal conductivity
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Funding
- DARPA [HR0011-08-1-0084]
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The concept of nanocomposite/nanostructuring in thermoelectric materials has been proven to be an effective paradigm for optimizing the high thermoelectric performance primarily by reducing the thermal conductivity. In this work, we have studied the microstructure details of nanocomposites derived by incorporating a semi-metallic Bi nanoparticle phase in Bi2Te3 matrix and its correlation mainly with the reduction in the lattice thermal conductivity. Incorporating Hi inclusion in Bi2Te3 bulk thermoelectric material results in a substantial increase in the power factor and simultaneous reduction in the thermal conductivity. The main focus of this work is the correlation of the microstructure of the composite with the reduction in thermal conductivity. Thermal conductivity of the matrix and nanocomposites was derived from the thermal diffusivity measurements performed from room temperature to 150 degrees C. Interestingly, significant reduction in total thermal conductivity of the nanocomposite was achieved as compared to that of the matrix. A detailed analysis of high-resolution transmission electron microscope images reveals that this reduction in the thermal conductivity can be ascribed to the enhanced phonon scattering by distinct microstructure features such as interfaces, grain boundaries, edge dislocations with dipoles, and strain field domains. (C) 2015 Elsevier Ltd. All rights reserved.
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