Evaluation of Half-Heusler Compounds as Thermoelectric Materials Based on the Calculated Electrical Transport Properties
A theoretical evaluation of the thermoelectric‐related electrical transport properties of 36 half‐Heusler (HH) compounds, selected from more than 100 HHs, is carried out in this paper. The electronic structures and electrical transport properties are studied using ab initio calculations and the Bolt...
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| Published in: | Advanced functional materials Vol. 18; no. 19; pp. 2880 - 2888 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
| Published: |
Weinheim
WILEY-VCH Verlag
09-10-2008
WILEY‐VCH Verlag |
| Subjects: | |
| Online Access: | Get full text |
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| Summary: | A theoretical evaluation of the thermoelectric‐related electrical transport properties of 36 half‐Heusler (HH) compounds, selected from more than 100 HHs, is carried out in this paper. The electronic structures and electrical transport properties are studied using ab initio calculations and the Boltzmann transport equation under the constant relaxation time approximation for charge carriers. The electronic structure results predict the band gaps of these HH compounds, and show that many HHs are narrow‐band‐gap semiconductors and, therefore, are potentially good thermoelectric materials. The dependence of Seebeck coefficient, electrical conductivity, and power factor on the Fermi level is investigated. Maximum power factors and the corresponding optimal p‐ or n‐type doping levels, related to the thermoelectric performance of materials, are calculated for all HH compounds investigated, which certainly provide guidance to experimental work. The estimated optimal doping levels and Seebeck coefficients show reasonable agreement with the measured results for some HH systems. A few HHs are recommended to be potentially good thermoelectric materials based on our calculations.
The electronic structures and electrical transport properties of 36 well‐selected half‐Heusler (HH) compounds are studied using ab initio calculations and the Boltzmann transport equation under the constant relaxation time approximation. The estimated optimal doping levels and Seebeck coefficients show reasonable agreement with the measured results for some HH systems. A few HHs are recommended to be potentially good p‐type (see figure) and n‐type thermoelectric materials based on our calculations. |
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| Bibliography: | ark:/67375/WNG-4ZSKK48S-1 ArticleID:ADFM200701369 istex:840D64FD1B95AD154A153868320AEEDD41371EA7 This work was supported by National Basic Research Program of China (973-program) under Project No. 2007CB607503, National Natural Science Foundation of China (10634070), CAS knowledge-creation project (KGCx2-YW-206), and also in part by General Motors Corporation. J. Yang wants to thank Drs. Jan F. Herbst and Mark W. Verbrugge for continuous support and encouragement. The work was also supported by GM and by DOE under corporate agreement DE-FC26-04NT42278. The authors would also like to thank G. Madsen and J. Furthmüller for useful discussions. This work was supported by National Basic Research Program of China (973‐program) under Project No. 2007CB607503, National Natural Science Foundation of China (10634070), CAS knowledge‐creation project (KGCx2‐YW‐206), and also in part by General Motors Corporation. J. Yang wants to thank Drs. Jan F. Herbst and Mark W. Verbrugge for continuous support and encouragement. The work was also supported by GM and by DOE under corporate agreement DE‐FC26‐04NT42278. The authors would also like to thank G. Madsen and J. Furthmüller for useful discussions. ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 23 |
| ISSN: | 1616-301X 1616-3028 |
| DOI: | 10.1002/adfm.200701369 |