Ultra-high Seebeck coefficient of nanostructured Sb-substituted PbTe and fabrication of a thermoelectric generator module

Compounds belonging to the series PbSb x Te 1− x and Pb 1− x Sb x Te ( x = 0.1, 0.3, 0.5) were prepared in the nanostructured form by employing high-energy ball-milling and subsequent hot-pressing. The amphoteric property of antimony was utilized to substitute lead and tellurium in the compounds hav...

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Bibliographic Details
Published in:Bulletin of materials science 2021-12, Vol.44 (1), p.9, Article 9
Main Authors: Sreeram, P R, Nair, Neethu M, Dayal, G, Thomas, Senoy, Anantharaman, M R
Format: Article
Language:English
Subjects:
Antimony
Antimony compounds
Ball milling
Chemistry and Materials Science
Composition
Conductivity
Efficiency
Electrons
Energy
Engineering
Figure of merit
Grain boundaries
Heat conductivity
Investigations
Materials Science
Modules
Nanostructure
Particle size
Power factor
Room temperature
Seebeck effect
Substitutes
Tellurium
Thermoelectric generators
Thermoelectricity
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Summary:Compounds belonging to the series PbSb x Te 1− x and Pb 1− x Sb x Te ( x = 0.1, 0.3, 0.5) were prepared in the nanostructured form by employing high-energy ball-milling and subsequent hot-pressing. The amphoteric property of antimony was utilized to substitute lead and tellurium in the compounds having the formula PbSb x Te 1− x and Pb 1− x Sb x Te to make them p and n. All the compositions were evaluated for their figure of merit (ZT) and power factor after ascertaining their Seebeck coefficient, electrical and thermal conductivities. These compositions exhibited very high Seebeck coefficient both in low- and room-temperature regimes. Thermoelectric generator modules were constructed using combinations of n- and p-type PbSbTe and the voltage developed was measured and compared with the calculated values, and they are found to be in good agreement. Different combinations of p- and n-types from the series were tested, and the best among them were identified.
ISSN:0250-4707
0973-7669
DOI:10.1007/s12034-020-02262-9