Effect of the Directional Crystallization Obtained by the Bridgman Method on the Thermoelectric Properties of Bi2Te3

Bracka-Kęsek, K.; Rafałowski, B.; Kopyciński, D.

Szczegóły

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Tytuł artykułu

Effect of the Directional Crystallization Obtained by the Bridgman Method on the Thermoelectric Properties of Bi2Te3

Tytuł czasopisma

Archives of Foundry Engineering

Rocznik

2025

Wolumin

vol. 25

Numer

No 4

Autorzy

Bracka-Kęsek, K. ; Rafałowski, B. ; Kopyciński, D.

Afiliacje

Bracka-Kęsek, K. : AGH University of Krakow, Poland. ; Rafałowski, B. : AGH University of Krakow, Poland. ; Kopyciński, D. : AGH University of Krakow, Poland.

Słowa kluczowe

Bi2Te3 ; Single crystal ; Bridgman method ; Thermoelectric properties ; LMC - Liquid Metal Cooling

Wydział PAN

Nauki Techniczne

Zakres

162-166

Wydawca

The Katowice Branch of the Polish Academy of Sciences

Bibliografia

Bell, L.E. (2008). Cooling, heating, generating power, and recovering waste heat with thermoelectric systems. Science. 321(5895), 1457-1461. https://doi.org/10.1126/science.1158899.
Królicka, A., Hruban, A. & Mirowska, A. (2012). Modern thermoelectric materials - literature review. Materiały Elektroniczne. 40, 19-34. (in Polish).
Paczkowski, P., Wojciechowski, W., Kopyciński, D. (2024). Control of casting structure and production of electricity by means of a chill with thermoelectric modules. In ICT/ECT 2024: 40th International and 20th European Conference on Thermoelectrics, 30-June – 4 July 2024 (pp. 440). Krakow, Poland.
Parashchuk, T., Knura, R., Cherniushok, O. & Wojciechowski, K. (2022). Ultralow lattice thermal conductivity and improved thermoelectric performance in Cl-doped Bi2Te3–xSex alloys. ACS Applied Materials & Interfaces. 14(29), 33567-33579. https://doi.org/10.1021/acsami.2c08686.
Knura, R., Maksymuk, M., Parashchuk, T. & Wojciechowski, K. (2024). Achieving high thermoelectric conversion efficiency in based stepwise legs through bandgap tuning and chemical potential engineering. Dalton Transactions. 53, 123-135.
Cherniushok, O., Parashchuk, T., Snyder, J. & Wojciechowski, K. (2025). Discovery of a new Cu-based chalcogenide with high near room temperature: low-cost alternative for the based thermoelectric. Advanced Materials. 37(18), 2420556, 1-12. https://doi.org/10.1002/adma.202420556.
Keawprak, N., Lao-Ubol, S., Eamchotchawalit, C. & Sun, Z.M. (2011). Thermoelectric properties of Bi2SexTe3− x prepared by Bridgman method. Journal of Alloys and Compounds. 509(38), 9296-9301. https://doi.org/10.1016/j.jallcom.2011.06.116.
Krishna, A., Vijayan, N., Singh, B., Thukral, K. & Maurya, K.K. (2016). Crystalline perfection and mechanical investigations on vertical Bridgman grown Bismuth telluride (Bi₂Te₃) single crystals for thermoelectric applications. Materials Science and Engineering: A. 657, 33-37. https://doi.org/10.1016/j.msea.2016.01.033.
Kuznetsov, V.L., Kuznetsova, L.A., Kaliazin, A.E. & Rowe, D.M. (2002). High performance functionally graded and segmented Bi₂Te³-based materials for thermoelectric power generation. Journal of Materials Science. 37(14), 2893-2897. https://doi.org/10.1023/A:1016092224833.
Yan, X., Tang, N., LIU, X., SHUI, G., Xu, Q., & Liu, B. (2015). Modeling and simulation of directional solidification by LMC process for nickel base superalloy casting. Acta Metallurgica Sinica. 51(10), 1288-1296. DOI: 10.11900/0412.1961.2015.00338.

Data

30.12.2025

Typ

Article

Identyfikator

DOI: 10.24425/afe.2025.157614 ; eISSN 2299-2944