Compositionally tuned hybridization of n-type Ag0: Ag2Se under ambient conditions towards excellent thermoelectric properties at room temperature
It is important to tune the thermoelectric properties of n-type thermoelectric materials, orthorhombic Ag2Se by nanoscale hybridization apart from conventional alloying or ion-doping approaches. In this work, we report the thermoelectric performance of a series of n-type Ag0 : Ag2Se materials prepar...
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sg-ntu-dr.10356-1745812024-04-05T15:47:52Z Compositionally tuned hybridization of n-type Ag0: Ag2Se under ambient conditions towards excellent thermoelectric properties at room temperature Tee, Si Yin Ponsford, Daniel Tan, Xian Yi Wang, Xiaobai Lay, Chee Leng Lee, Coryl Jing Jun Ni, Xi Ping Seng, Debbie Hwee Leng Thitsartarn, Warintorn Guan, Guijian Han, Ming-Yong School of Materials Science and Engineering Institute of Materials Research and Engineering, A*STAR Chemistry Ambient conditions Hybridisation It is important to tune the thermoelectric properties of n-type thermoelectric materials, orthorhombic Ag2Se by nanoscale hybridization apart from conventional alloying or ion-doping approaches. In this work, we report the thermoelectric performance of a series of n-type Ag0 : Ag2Se materials prepared through a surfactant-free, aqueous solution-based approach under ambient conditions. This strategy enables fine control over phases and compositions through nanoscale hybridization using silver nanoparticles for the first time, yet remains applicable to large-scale production methods. By prolonging reaction times, the synthetic process is carefully developed/optimized to adjust the excess of the Ag0 phase, in order to enhance the thermoelectric properties. Hybridization of Ag0 and Ag2Se with increasing amounts of Ag0 (1.96%, 4.31%, 6.10%, 15.97%, 45.80% and 50.86% Ag0) results in not only increased electrical conductivities but also decreased Seebeck coefficients. The optimal excess of Ag0 is determined to be 1.96% after 7 days of reaction, with a high ZT value of near unity at 333 K. The ZT values realized in this study exceed those hitherto reported for β-Ag2Se synthesized via wet chemistry methods at room temperature. Agency for Science, Technology and Research (A*STAR) Published version We acknowledge the financial support from the A*STAR SERC MTC YIRG under grant number 21-815515 and A*STAR IMRE-SCG Chemicals Advanced Composite Joint Lab (IAF-ICP) under project number I1801E0024. 2024-04-03T02:53:29Z 2024-04-03T02:53:29Z 2023 Journal Article Tee, S. Y., Ponsford, D., Tan, X. Y., Wang, X., Lay, C. L., Lee, C. J. J., Ni, X. P., Seng, D. H. L., Thitsartarn, W., Guan, G. & Han, M. (2023). Compositionally tuned hybridization of n-type Ag0: Ag2Se under ambient conditions towards excellent thermoelectric properties at room temperature. Materials Chemistry Frontiers, 7(12), 2411-2418. https://dx.doi.org/10.1039/d3qm00123g 2052-1537 https://hdl.handle.net/10356/174581 10.1039/d3qm00123g 2-s2.0-85151887927 12 7 2411 2418 en 21-815515 I1801E0024 Materials Chemistry Frontiers © The Authors. This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. application/pdf |
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Chemistry Ambient conditions Hybridisation Tee, Si Yin Ponsford, Daniel Tan, Xian Yi Wang, Xiaobai Lay, Chee Leng Lee, Coryl Jing Jun Ni, Xi Ping Seng, Debbie Hwee Leng Thitsartarn, Warintorn Guan, Guijian Han, Ming-Yong Compositionally tuned hybridization of n-type Ag0: Ag2Se under ambient conditions towards excellent thermoelectric properties at room temperature |
| description |
It is important to tune the thermoelectric properties of n-type thermoelectric materials, orthorhombic Ag2Se by nanoscale hybridization apart from conventional alloying or ion-doping approaches. In this work, we report the thermoelectric performance of a series of n-type Ag0 : Ag2Se materials prepared through a surfactant-free, aqueous solution-based approach under ambient conditions. This strategy enables fine control over phases and compositions through nanoscale hybridization using silver nanoparticles for the first time, yet remains applicable to large-scale production methods. By prolonging reaction times, the synthetic process is carefully developed/optimized to adjust the excess of the Ag0 phase, in order to enhance the thermoelectric properties. Hybridization of Ag0 and Ag2Se with increasing amounts of Ag0 (1.96%, 4.31%, 6.10%, 15.97%, 45.80% and 50.86% Ag0) results in not only increased electrical conductivities but also decreased Seebeck coefficients. The optimal excess of Ag0 is determined to be 1.96% after 7 days of reaction, with a high ZT value of near unity at 333 K. The ZT values realized in this study exceed those hitherto reported for β-Ag2Se synthesized via wet chemistry methods at room temperature. |
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School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Tee, Si Yin Ponsford, Daniel Tan, Xian Yi Wang, Xiaobai Lay, Chee Leng Lee, Coryl Jing Jun Ni, Xi Ping Seng, Debbie Hwee Leng Thitsartarn, Warintorn Guan, Guijian Han, Ming-Yong |
| format |
Article |
| author |
Tee, Si Yin Ponsford, Daniel Tan, Xian Yi Wang, Xiaobai Lay, Chee Leng Lee, Coryl Jing Jun Ni, Xi Ping Seng, Debbie Hwee Leng Thitsartarn, Warintorn Guan, Guijian Han, Ming-Yong |
| author_sort |
Tee, Si Yin |
| title |
Compositionally tuned hybridization of n-type Ag0: Ag2Se under ambient conditions towards excellent thermoelectric properties at room temperature |
| title_short |
Compositionally tuned hybridization of n-type Ag0: Ag2Se under ambient conditions towards excellent thermoelectric properties at room temperature |
| title_full |
Compositionally tuned hybridization of n-type Ag0: Ag2Se under ambient conditions towards excellent thermoelectric properties at room temperature |
| title_fullStr |
Compositionally tuned hybridization of n-type Ag0: Ag2Se under ambient conditions towards excellent thermoelectric properties at room temperature |
| title_full_unstemmed |
Compositionally tuned hybridization of n-type Ag0: Ag2Se under ambient conditions towards excellent thermoelectric properties at room temperature |
| title_sort |
compositionally tuned hybridization of n-type ag0: ag2se under ambient conditions towards excellent thermoelectric properties at room temperature |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174581 |
| _version_ |
1814047361741094912 |