Low-Temperature, Solution-Based, Scalable Synthesis of Sb2Te3 Nanoparticles with an Enhanced Power Factor

Nanostructured thermoelectric (TE) materials, for example Sb 2 Te 3 , PbTe, and SiGe-based semiconductors, have excellent thermoelectric transport properties and are promising candidates for next-generation TE commercial application. However, it is a challenge to synthesize the corresponding pure na...

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Bibliographic Details
Published in:Journal of electronic materials 2014-06, Vol.43 (6), p.2165-2173
Main Authors: Yang, Heng Quan, Miao, Lei, Zhang, Ming, Ohno, Kaoru, Zhou, Jian Hua, Gu, Hui, Shen, Yang, Lin, Hong
Format: Article
Language:English
Subjects:
Characterization and Evaluation of Materials
Chemistry and Materials Science
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Conductivity phenomena in semiconductors and insulators
Cross-disciplinary physics: materials science
rheology
Electronic transport in condensed matter
Electronics and Microelectronics
Exact sciences and technology
Instrumentation
Materials Science
Methods of crystal growth
physics of crystal growth
Nanoscale materials and structures: fabrication and characterization
Optical and Electronic Materials
Other topics in nanoscale materials and structures
Physics
Solid State Physics
Theory and models of crystal growth
physics of crystal growth, crystal morphology and orientation
Thermoelectric and thermomagnetic effects
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Summary:Nanostructured thermoelectric (TE) materials, for example Sb 2 Te 3 , PbTe, and SiGe-based semiconductors, have excellent thermoelectric transport properties and are promising candidates for next-generation TE commercial application. However, it is a challenge to synthesize the corresponding pure nanocrystals with controlled size by low-temperature wet-chemical reaction. Herein, we report an alternative versatile solution-based method for synthesis of plate-like Sb 2 Te 3 nanoparticles in a flask using SbCl 3 and Te powders as raw materials, EDTA-Na 2 as complexing agent, and NaBH 4 as reducing agent in the solvent (distilled water). To investigate their thermoelectric transport properties, the obtained powders were cold compacted into cuboid prisms then annealed under a protective N 2 atmosphere. The results showed that both the electrical conductivity ( σ ) and the power factor ( S 2 σ ) can be enhanced by improving the purity of the products and by increasing the annealing temperature. The highest power factor was 2.04  μ W cm −1  K −2 at 140°C and electrical conductivity remained in the range 5–10 × 10 3  S m −1 . This work provides a simple and economic approach to preparation of large quantities of nanostructured Sb 2 Te 3 with excellent TE performance, making it a fascinating candidate for commercialization of cooling devices.
ISSN:0361-5235
1543-186X
DOI:10.1007/s11664-014-2995-7