Advanced Science (Feb 2023)

Design of N‐Type Textured Bi2Te3 with Robust Mechanical Properties for Thermoelectric Micro‐Refrigeration Application

  • Yu‐Ke Zhu,
  • Yifan Jin,
  • Jianbo Zhu,
  • Xingyan Dong,
  • Ming Liu,
  • Yuxin Sun,
  • Muchun Guo,
  • Fushan Li,
  • Fengkai Guo,
  • Qian Zhang,
  • Zihang Liu,
  • Wei Cai,
  • Jiehe Sui

DOI
https://doi.org/10.1002/advs.202206395
Journal volume & issue
Vol. 10, no. 6
pp. n/a – n/a

Abstract

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Abstract Thermoelectric refrigeration is one of the mature techniques used for cooling applications, with the great advantage of miniaturization over traditional compression refrigeration. Due to the anisotropic thermoelectric properties of n‐type bismuth telluride (Bi2Te3) alloys, these two common methods, including the liquid phase hot deformation (LPHD) and traditional hot forging (HF) methods, are of considerable importance for texture engineering to enhance performance. However, their effects on thermoelectric and mechanical properties are still controversial and not clear yet. Moreover, there has been little documentation of mechanical properties related to micro‐refrigeration applications. In this work, the above‐mentioned methods are separately employed to control the macroscopic grain orientation for bulk n‐type Bi2Te3 samples. The HF method enabled the stabilization of both composition and carrier concentration, therefore yielding a higher quality factor to compare with that of LPHD samples, supported by DFT calculations. In addition to superior thermoelectric performance, the HF sample also exhibited robust mechanical properties due to the presence of nano‐scale distortion and dense dislocation, which is the prerequisite for realizing ultra‐precision machining. This work helps to pave the way for the utilization of n‐type Bi2Te3 for commercial micro‐refrigeration applications.

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