Improved thermoelectric efficiency of Sb2Si2Te6 through yttrium-induced nanocompositing
Sb2Si2Te6 is a promising 2D material for medium-temperature thermoelectric applications, with the thermoelectric figure of merit zT approaching 1 at 823 K. However, its widespread use has been limited by relatively low power factor values. In this study, we successfully enhanced the performance of S...
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sg-ntu-dr.10356-1821972025-01-14T04:38:53Z Improved thermoelectric efficiency of Sb2Si2Te6 through yttrium-induced nanocompositing Saglik, Kivanc Tan, Xian Yi Dong, Jinfeng Suwardi, Ady Wang, Xizu Xu, Jianwei Zhu, Qiang Liu, Hongfei Cao, Jing Yan, Qingyu School of Materials Science and Engineering Institute of Materials Research and Engineering, A*STAR Chemistry Crystal lattices Electric conductivity Sb2Si2Te6 is a promising 2D material for medium-temperature thermoelectric applications, with the thermoelectric figure of merit zT approaching 1 at 823 K. However, its widespread use has been limited by relatively low power factor values. In this study, we successfully enhanced the performance of Sb2Si2Te6 by introducing Yttrium nanocomposites. This modification fine-tuned the carrier concentration and electrical conductivity, and increased the power factor up to 946 μW K-1 at 570 K. Jonker plot analysis revealed that increased carrier concentration did not affect the intrinsic electronic properties. SEM and TEM analyses revealed that Y nano-compositing introduced secondary phases, reducing the lattice thermal conductivity to values close to simulated ones using the Debye-Callaway model. Sb1.98Y0.02Si2Te6 exhibited the highest zT of 1.49 at 773 K due to the ultralow lattice thermal conductivity of 0.29 W m-1 K-1 and a moderate power factor of 858 μW K-1 at the same temperature. The single parabolic band (SPB) model suggests that with further optimization of the Fermi level and additional reduction in lattice thermal conductivity, the zT value could potentially increase to 1.55. These results demonstrate the potential of Y nanocompositing for enhancing Sb2Si2Te6 as an efficient medium-temperature thermoelectric material. Ministry of Education (MOE) Q. Yan acknowledges the financial support from the Ministry of Education (MOE) Academic Research Fund (AcRF) Tier 1 (RG128/21 and RG78/23), and MOE Tier 2 (MOE-T2EP50223- 0003). J. Cao acknowledges the financial support from e-ASIA project R22I1IR053 and LCER Phase 2 Programme U2411D4011. K. Saglik acknowledges the support from A*STAR’s SINGA scholarship. 2025-01-14T04:38:53Z 2025-01-14T04:38:53Z 2024 Journal Article Saglik, K., Tan, X. Y., Dong, J., Suwardi, A., Wang, X., Xu, J., Zhu, Q., Liu, H., Cao, J. & Yan, Q. (2024). Improved thermoelectric efficiency of Sb2Si2Te6 through yttrium-induced nanocompositing. Physical Chemistry Chemical Physics. https://dx.doi.org/10.1039/d4cp04219k 1463-9076 https://hdl.handle.net/10356/182197 10.1039/d4cp04219k 39698743 2-s2.0-85212767767 en RG128/21 RG78/23 MOE-T2EP50223-0003 Physical Chemistry Chemical Physics © The Author(s). All rights reserved. |
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Chemistry Crystal lattices Electric conductivity Saglik, Kivanc Tan, Xian Yi Dong, Jinfeng Suwardi, Ady Wang, Xizu Xu, Jianwei Zhu, Qiang Liu, Hongfei Cao, Jing Yan, Qingyu Improved thermoelectric efficiency of Sb2Si2Te6 through yttrium-induced nanocompositing |
| description |
Sb2Si2Te6 is a promising 2D material for medium-temperature thermoelectric applications, with the thermoelectric figure of merit zT approaching 1 at 823 K. However, its widespread use has been limited by relatively low power factor values. In this study, we successfully enhanced the performance of Sb2Si2Te6 by introducing Yttrium nanocomposites. This modification fine-tuned the carrier concentration and electrical conductivity, and increased the power factor up to 946 μW K-1 at 570 K. Jonker plot analysis revealed that increased carrier concentration did not affect the intrinsic electronic properties. SEM and TEM analyses revealed that Y nano-compositing introduced secondary phases, reducing the lattice thermal conductivity to values close to simulated ones using the Debye-Callaway model. Sb1.98Y0.02Si2Te6 exhibited the highest zT of 1.49 at 773 K due to the ultralow lattice thermal conductivity of 0.29 W m-1 K-1 and a moderate power factor of 858 μW K-1 at the same temperature. The single parabolic band (SPB) model suggests that with further optimization of the Fermi level and additional reduction in lattice thermal conductivity, the zT value could potentially increase to 1.55. These results demonstrate the potential of Y nanocompositing for enhancing Sb2Si2Te6 as an efficient medium-temperature thermoelectric material. |
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School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Saglik, Kivanc Tan, Xian Yi Dong, Jinfeng Suwardi, Ady Wang, Xizu Xu, Jianwei Zhu, Qiang Liu, Hongfei Cao, Jing Yan, Qingyu |
| format |
Article |
| author |
Saglik, Kivanc Tan, Xian Yi Dong, Jinfeng Suwardi, Ady Wang, Xizu Xu, Jianwei Zhu, Qiang Liu, Hongfei Cao, Jing Yan, Qingyu |
| author_sort |
Saglik, Kivanc |
| title |
Improved thermoelectric efficiency of Sb2Si2Te6 through yttrium-induced nanocompositing |
| title_short |
Improved thermoelectric efficiency of Sb2Si2Te6 through yttrium-induced nanocompositing |
| title_full |
Improved thermoelectric efficiency of Sb2Si2Te6 through yttrium-induced nanocompositing |
| title_fullStr |
Improved thermoelectric efficiency of Sb2Si2Te6 through yttrium-induced nanocompositing |
| title_full_unstemmed |
Improved thermoelectric efficiency of Sb2Si2Te6 through yttrium-induced nanocompositing |
| title_sort |
improved thermoelectric efficiency of sb2si2te6 through yttrium-induced nanocompositing |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182197 |
| _version_ |
1821279350281994240 |