Local nanostructures enhanced thermoelectric performance of n-type PbTe
发布时间:2025-04-30
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- 发布时间:
- 2025-04-30
- 论文名称:
- Local nanostructures enhanced thermoelectric performance of n-type PbTe
- 发表刊物:
- J. Mater. Chem. A
- 摘要:
- Microstructure controlling and carrier concentration engineering are effective approaches to optimize thermal transport and electrical properties in thermoelectric materials. Hereby, we have developed a facile strategy to reduce the lattice thermal conductivity separately by creating locally nanostructured PbTe with controlled size in micro-sized PbTe frame. This is realized by using building blocks of PbTe nanocubes and PbTe@C:Ag nanoparticles with carbon shell as diffusion barrier to prevent grain growth during spark plasma sintering (SPS), while uncoated PbTe nanocubes grow to the micro-sized frame. The locally nano-structured PbTe/PbTe@C:Ag successfully integrates multiple defects that involve Ag based nano-precipitates, nano/micro-sized grain boundaries/interfaces, pores and other defects. They collectively scatter phonons in low-middle frequencies to reduce lattice thermal conductivity significantly in low-temperature range. In addition, Ag exhibits dynamic doping behavior due to more interstitial Ag in PbTe lattice at elevated temperature. This could further enhance the high-frequency phonons scattering and suppress bipolar effect in high-temperature range, leading to an ultralow lattice thermal conductivity of 0.39 W /m/K at 723 K. On the other hand, the micro-sized PbTe frame with Ag nanoparticles at boundaries maintains relatively high carrier mobility. Further considering the higher carrier concentration due to Ag dynamic doping at elevated temperature, a high power factor of 20.4 μW cm^-1 K^-2 has been achieved at 723 K. Consequently, a peak figure of merit of 1.65 was achieved at 723K in PbTe/7%PbTe@C:Ag. Our strategy shows superiority in constructing desired nano-, microstructures and tuneable carrier concentration of PbTe towards high thermoelectric performance.
- 合写作者:
- B. Xiang, J. Q. Liu, J. Yan, M. G. Xia, Q. Zhang, L. X. Chen, J. Y. Li, X. Y. Tan, Q. Y. Yan*, Y. C. Wu
- 卷号:
- 7
- 页面范围:
- 18458
- 是否译文:
- 否
- 发表时间:
- 2019-08-23