Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion
This study investigates Ga-doped n-type PbTe thermoelectric materials and the dynamic phase conversion process of the second phases via Cu2Se alloying. Introducing Cu2Se enhances its electrical transport properties while reducing its lattice thermal conductivity (κlat) via weak electron–phonon coupl...
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2023
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Engineering::Materials Dynamic Phase Conversion Electron–Phonon Coupling |
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Engineering::Materials Dynamic Phase Conversion Electron–Phonon Coupling Wu, Ming Cui, Hong-Hua Cai, Songting Hao, Shiqiang Liu, Yukun Bailey, Trevor P. Zhang, Yinying Chen, Zixuan Luo, Yubo Uher, Ctirad Wolverton, Christopher Dravid, Vinayak P. Yu, Yan Luo, Zhong-Zhen Zou, Zhigang Yan, Qingyu Kanatzidis, Mercouri G. Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion |
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This study investigates Ga-doped n-type PbTe thermoelectric materials and the dynamic phase conversion process of the second phases via Cu2Se alloying. Introducing Cu2Se enhances its electrical transport properties while reducing its lattice thermal conductivity (κlat) via weak electron–phonon coupling. Cu2Te and CuGa(Te/Se)2 (tetragonal phase) nanocrystals precipitate during the alloying process, resulting in Te vacancies and interstitial Cu in the PbTe matrix. At room temperature, Te vacancies and interstitial Cu atoms serve as n-type dopants, increasing the carrier concentration and electrical conductivity from ≈1.18 × 1019 cm−3 and ≈1870 S cm−1 to ≈2.26 × 1019 cm−3 and ≈3029 S cm−1, respectively. With increasing temperature, the sample exhibits a dynamic change in Cu2Te content and the generation of a new phase of CuGa(Te/Se)2 (cubic phase), strengthening the phonon scattering and obtaining an ultralow κlat. Pb0.975Ga0.025Te-3%CuSe exhibits a maximum figure of merit of ≈1.63 at 823 K, making it promising for intermediate-temperature device applications. |
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School of Materials Science and Engineering |
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School of Materials Science and Engineering Wu, Ming Cui, Hong-Hua Cai, Songting Hao, Shiqiang Liu, Yukun Bailey, Trevor P. Zhang, Yinying Chen, Zixuan Luo, Yubo Uher, Ctirad Wolverton, Christopher Dravid, Vinayak P. Yu, Yan Luo, Zhong-Zhen Zou, Zhigang Yan, Qingyu Kanatzidis, Mercouri G. |
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Article |
| author |
Wu, Ming Cui, Hong-Hua Cai, Songting Hao, Shiqiang Liu, Yukun Bailey, Trevor P. Zhang, Yinying Chen, Zixuan Luo, Yubo Uher, Ctirad Wolverton, Christopher Dravid, Vinayak P. Yu, Yan Luo, Zhong-Zhen Zou, Zhigang Yan, Qingyu Kanatzidis, Mercouri G. |
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Wu, Ming |
| title |
Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion |
| title_short |
Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion |
| title_full |
Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion |
| title_fullStr |
Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion |
| title_full_unstemmed |
Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion |
| title_sort |
weak electron–phonon coupling and enhanced thermoelectric performance in n-type pbte–cu₂se via dynamic phase conversion |
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2023 |
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https://hdl.handle.net/10356/164587 |
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1773551222520807424 |
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sg-ntu-dr.10356-1645872023-07-14T16:07:39Z Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion Wu, Ming Cui, Hong-Hua Cai, Songting Hao, Shiqiang Liu, Yukun Bailey, Trevor P. Zhang, Yinying Chen, Zixuan Luo, Yubo Uher, Ctirad Wolverton, Christopher Dravid, Vinayak P. Yu, Yan Luo, Zhong-Zhen Zou, Zhigang Yan, Qingyu Kanatzidis, Mercouri G. School of Materials Science and Engineering Engineering::Materials Dynamic Phase Conversion Electron–Phonon Coupling This study investigates Ga-doped n-type PbTe thermoelectric materials and the dynamic phase conversion process of the second phases via Cu2Se alloying. Introducing Cu2Se enhances its electrical transport properties while reducing its lattice thermal conductivity (κlat) via weak electron–phonon coupling. Cu2Te and CuGa(Te/Se)2 (tetragonal phase) nanocrystals precipitate during the alloying process, resulting in Te vacancies and interstitial Cu in the PbTe matrix. At room temperature, Te vacancies and interstitial Cu atoms serve as n-type dopants, increasing the carrier concentration and electrical conductivity from ≈1.18 × 1019 cm−3 and ≈1870 S cm−1 to ≈2.26 × 1019 cm−3 and ≈3029 S cm−1, respectively. With increasing temperature, the sample exhibits a dynamic change in Cu2Te content and the generation of a new phase of CuGa(Te/Se)2 (cubic phase), strengthening the phonon scattering and obtaining an ultralow κlat. Pb0.975Ga0.025Te-3%CuSe exhibits a maximum figure of merit of ≈1.63 at 823 K, making it promising for intermediate-temperature device applications. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Submitted/Accepted version This work was supported in part by the National Key Research and Development Program of China (No. 2020YFA0710303). At Northwestern work was supported in part by the Department of Energy, Office of Science, Basic Energy Sciences under Grant No. DE-SC0014520, (sample preparation, synthesis, XRD, TE measurements, TEM measurements, DFT calculations). This study was supported in part by the National Natural Science Foundation of China (Nos. 52102218, U1905215, and 52072076) and the Fujian Science & Technology Innovation Laboratory for Optoelectronic Information of China (No. 2021ZZ127). The authors acknowledge the Minjiang Scholar Professorship (GXRC-21004), the EPIC facility of Northwestern University's NUANCE Center, which received support from the Soft and Hybrid Nanotechnology Experimental (SHyNE) Resource (NSF ECCS-1542205), the MRSEC program (NSF DMR-1720139) at the Materials Research Center, International Institute for Nanotechnology (IIN), Keck Foundation, State of Illinois, through IIN, and the Office of Science of the U.S. Department of Energy under Contract Nos. DE-AC02-06CH11357 and DE-AC02-05CH11231. The high temperature Hall effect measurements made at the University of Michigan were supported by a grant from the U. S. Department of Energy (Grant No. DE-SC0018941). The authors also acknowledge the access to facilities for high-performance computational resources at Northwestern University and Singapore MOE AcRF Tier 1 RG128/21, Singapore A*STAR project A19D9a0096. 2023-02-06T02:26:55Z 2023-02-06T02:26:55Z 2023 Journal Article Wu, M., Cui, H., Cai, S., Hao, S., Liu, Y., Bailey, T. P., Zhang, Y., Chen, Z., Luo, Y., Uher, C., Wolverton, C., Dravid, V. P., Yu, Y., Luo, Z., Zou, Z., Yan, Q. & Kanatzidis, M. G. (2023). Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion. Advanced Energy Materials, 13(1), 2203325-. https://dx.doi.org/10.1002/aenm.202203325 1614-6832 https://hdl.handle.net/10356/164587 10.1002/aenm.202203325 2-s2.0-85141981296 1 13 2203325 en RG128/21 A19D9a0096 Advanced Energy Materials © 2022 Wiley-VCH GmbH. All rights reserved. This is the peer reviewed version of the following article: Wu, M., Cui, H., Cai, S., Hao, S., Liu, Y., Bailey, T. P., Zhang, Y., Chen, Z., Luo, Y., Uher, C., Wolverton, C., Dravid, V. P., Yu, Y., Luo, Z., Zou, Z., Yan, Q. & Kanatzidis, M. G. (2023). Weak electron–phonon coupling and enhanced thermoelectric performance in n-type PbTe–Cu₂Se via dynamic phase conversion. Advanced Energy Materials, 13(1), 2203325-, which has been published in final form at https://doi.org/10.1002/aenm.202203325. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |