Suppressing thermal conductivity of nano-grained thermoelectric material using acoustically hard nanoparticles
At a Glance
Section titled âAt a Glanceâ| Metadata | Details |
|---|---|
| Publication Date | 2021-12-17 |
| Journal | Journal of Applied Physics |
| Authors | Jianlin Zheng, Yasuhiro Kodera, Xia Xu, Sunmi Shin, Ka Man Chung |
| Institutions | National University of Singapore, General Engineering and Research (United States) |
| Citations | 6 |
Abstract
Section titled âAbstractâWe engineered the thermal conductivity of nano-grained Bi0.5Sb1.5Te3 (BST) by embedding SiO2 and diamond nanoparticles (NPs) with concentration ranging from 0.5 to 5 vol. %. The embedded NPs work as additional scattering centers for long mean free path phonons that are not effectively scattered by the grain boundaries. We found that both the SiO2 and diamond NPs materially reduced the lattice thermal conductivity (Îșlat) within the temperature range of 50-300 K, with stronger reduction occurring at a lower temperature. Furthermore, the diamond NPs were found to cause large reduction in Îșlat compared to the SiO2 NPs at the same concentrations. Further theoretical analysis showed that the diamond NPs possess about tenfold higher interfacial thermal resistance with the BST matrix compared to that of SiO2 NPs, due to the larger acoustic mismatch between diamond and BST as compared to SiO2 and BST. As a result of the large reduction of Îșlat, the thermoelectric figure of merit (ZT) was enhanced by 15% at room temperature with 0.5 vol. % diamond NP relative to the pristine nano-grained samples without the NPs.
Tech Support
Section titled âTech SupportâOriginal Source
Section titled âOriginal SourceâReferences
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