Electronic transport descriptors for the rapid screening of thermoelectric materials
The discovery of novel materials for thermoelectric energy conversion has potential to be accelerated by data-driven screening combined with high-throughput calculations. One way to increase the efficacy of successfully choosing a candidate material is through its evaluation using transport descript...
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sg-ntu-dr.10356-1600042022-07-07T07:18:30Z Electronic transport descriptors for the rapid screening of thermoelectric materials Deng, Tianqi Recatala-Gomez, Jose Ohnishi, Masato Repaka, D. V. Maheswar Kumar, Pawan Suwardi, Ady Abutaha, Anas Nandhakumar, Iris Biswas, Kanishka Sullivan, Michael B. Wu, Gang Shiomi, Junichiro Yang, Shuo-Wang Hippalgaonkar, Kedar School of Materials Science and Engineering Institute of Materials Research and Engineering, A*STAR Engineering::Materials Lattice Thermal-Conductivity Seebeck Coefficient The discovery of novel materials for thermoelectric energy conversion has potential to be accelerated by data-driven screening combined with high-throughput calculations. One way to increase the efficacy of successfully choosing a candidate material is through its evaluation using transport descriptors. Using a data-driven screening, we selected 12 potential candidates in the trigonal ABX2 family, followed by charge transport property simulations from first principles. The results suggest that carrier scattering processes in these materials are dominated by ionised impurities and polar optical phonons, contrary to the oft-assumed acoustic-phonon-dominated scattering. Using these data, we further derive ground-state transport descriptors for the carrier mobility and the thermoelectric powerfactor. In addition to low carrier mass, high dielectric constant was found to be an important factor towards high carrier mobility. A quadratic correlation between dielectric constant and transport performance was established and further validated with literature. Looking ahead, dielectric constant can potentially be exploited as an independent criterion towards improved thermoelectric performance. Combined with calculations of thermal conductivity including Peierls and inter-branch coherent contributions, we conclude that the trigonal ABX2 family has potential as high performance thermoelectrics in the intermediate temperature range for low grade waste heat harvesting. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) T. D., M. B. S., G. W., and S.-W. Y. acknowledge the support of Agency for Science, Technology and Research (A*STAR) of Singapore (Grant No. 1527200024). J. R.-G., D. V. M. R., P. K., A. A., and K. H. would like to acknowledge the Accelerated Materials Development for Manufacturing Program at A*STAR via the AME Programmatic Fund by the Agency for Science, Technology and Research under Grant No. A1898b0043. K. H. would like to acknowledge funding via the NRF Fellowship NRF-NRFF13-2021. J. R.-G. and I. N. would like to thank A*STAR Graduate Academy's ARAP programme for funding J. R.-G.'s graduate studies in IMRE, A*STAR. M. O. and J. S. would like to acknowledge JSPS KAKENHI (19H00744, 20K14661) and JST CREST (JPMJCR20Q3). 2022-07-07T07:18:30Z 2022-07-07T07:18:30Z 2021 Journal Article Deng, T., Recatala-Gomez, J., Ohnishi, M., Repaka, D. V. M., Kumar, P., Suwardi, A., Abutaha, A., Nandhakumar, I., Biswas, K., Sullivan, M. B., Wu, G., Shiomi, J., Yang, S. & Hippalgaonkar, K. (2021). Electronic transport descriptors for the rapid screening of thermoelectric materials. Materials Horizons, 8(9), 2463-2474. https://dx.doi.org/10.1039/d1mh00751c 2051-6355 https://hdl.handle.net/10356/160004 10.1039/d1mh00751c 34870304 2-s2.0-85112220386 9 8 2463 2474 en 1527200024 A1898b0043 NRF-NRFF13-2021 Materials Horizons © 2021 The Royal Society of Chemistry. All rights reserved. |
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Engineering::Materials Lattice Thermal-Conductivity Seebeck Coefficient |
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Engineering::Materials Lattice Thermal-Conductivity Seebeck Coefficient Deng, Tianqi Recatala-Gomez, Jose Ohnishi, Masato Repaka, D. V. Maheswar Kumar, Pawan Suwardi, Ady Abutaha, Anas Nandhakumar, Iris Biswas, Kanishka Sullivan, Michael B. Wu, Gang Shiomi, Junichiro Yang, Shuo-Wang Hippalgaonkar, Kedar Electronic transport descriptors for the rapid screening of thermoelectric materials |
| description |
The discovery of novel materials for thermoelectric energy conversion has potential to be accelerated by data-driven screening combined with high-throughput calculations. One way to increase the efficacy of successfully choosing a candidate material is through its evaluation using transport descriptors. Using a data-driven screening, we selected 12 potential candidates in the trigonal ABX2 family, followed by charge transport property simulations from first principles. The results suggest that carrier scattering processes in these materials are dominated by ionised impurities and polar optical phonons, contrary to the oft-assumed acoustic-phonon-dominated scattering. Using these data, we further derive ground-state transport descriptors for the carrier mobility and the thermoelectric powerfactor. In addition to low carrier mass, high dielectric constant was found to be an important factor towards high carrier mobility. A quadratic correlation between dielectric constant and transport performance was established and further validated with literature. Looking ahead, dielectric constant can potentially be exploited as an independent criterion towards improved thermoelectric performance. Combined with calculations of thermal conductivity including Peierls and inter-branch coherent contributions, we conclude that the trigonal ABX2 family has potential as high performance thermoelectrics in the intermediate temperature range for low grade waste heat harvesting. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Deng, Tianqi Recatala-Gomez, Jose Ohnishi, Masato Repaka, D. V. Maheswar Kumar, Pawan Suwardi, Ady Abutaha, Anas Nandhakumar, Iris Biswas, Kanishka Sullivan, Michael B. Wu, Gang Shiomi, Junichiro Yang, Shuo-Wang Hippalgaonkar, Kedar |
| format |
Article |
| author |
Deng, Tianqi Recatala-Gomez, Jose Ohnishi, Masato Repaka, D. V. Maheswar Kumar, Pawan Suwardi, Ady Abutaha, Anas Nandhakumar, Iris Biswas, Kanishka Sullivan, Michael B. Wu, Gang Shiomi, Junichiro Yang, Shuo-Wang Hippalgaonkar, Kedar |
| author_sort |
Deng, Tianqi |
| title |
Electronic transport descriptors for the rapid screening of thermoelectric materials |
| title_short |
Electronic transport descriptors for the rapid screening of thermoelectric materials |
| title_full |
Electronic transport descriptors for the rapid screening of thermoelectric materials |
| title_fullStr |
Electronic transport descriptors for the rapid screening of thermoelectric materials |
| title_full_unstemmed |
Electronic transport descriptors for the rapid screening of thermoelectric materials |
| title_sort |
electronic transport descriptors for the rapid screening of thermoelectric materials |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160004 |
| _version_ |
1738844864815038464 |