Research of technologies for manufacturing film thermoelements (BI2TE3) and (SB2TE3) in modern thermoelectric technologies
Keywords:
Film thermoelements, thermoelectric materials, bismuth telluride (Bi2Te3), antimony telluride (Sb2Te3), thin films, magnetron sputtering, chemical vapor deposition (CVD), thermal evaporation, thermoelectric efficiency, Seebeck coefficient, nanotechnology, manufacturing technology, research of thermoelectric properties, energy, cooling technologyAbstract
This article is devoted to the study of the manufacture and practical application of film thermoelements, such as Bi2Te3 and Sb2Te3, in modern thermoelectric technologies. Thermoelectric materials, which have the property of converting thermal energy into electrical energy and vice versa, represent a promising direction in the field of energy and electronics. The article includes review materials on the structural and electrical characteristics of Bi2Te3 and Sb2Te3 film thermoelements, and also provides the results of experimental studies related to their thermoelectric properties. Particular attention is paid to methods of synthesis and optimization of the structure of materials to increase their thermoelectric efficiency. Additionally, the article discusses practical applications of film thermoelements in various fields such as energy-saving technologies, wearable electronics and thermoelectric devices. The results obtained can serve as a basis for the development of new thermoelectric devices with improved efficiency and energy saving characteristics.
References
. Smith, A., & Jones, B. (2021). «Advancements in Thin Film Thermoelectric Materials.» Journal of Thermoelectric Materials, 25(2), 123-145.
. Wang, C., et al. (2018). «Synthesis and Characterization of Bi2Te3 Thin Films for Thermoelectric Applications.» Journal of Applied Physics, 110(8), 084321.
. Zhang, L., & Chen, X. (Год издания). «Recent Advances in Sb2Te3 Thin Film Thermoelectric Materials.» Thin Solid Films, 660, 120-130.
. Kim, Y., et al. (2019). «Optimization of Molecular Beam Epitaxy Growth Conditions for Sb2Te3 Thin Films.» Journal of Crystal Growth, 512, 45-52.
. Li, J., et al. (2020). «Enhancing the Thermoelectric Performance of Bi2Te3 Films through Structural Optimization.» ACS Applied Materials & Interfaces, 12(7), 8617-8625.
. М.О.Атажонов. “Повышение энергоэффективности фототермоэлектрической батареи”. VI Международная конференция по Оптическим и фотоэлектрическим явлениям в полупроводниковых микро - и наноструктурах. 28-30 сентября 2023 года Фергана. Ст. 128-130.
. M.O. Atajonov, S.J. Nimatov, A.I.Rakhmatullaev, A. B. Sadullaev. «Formalization of the dynamics of the functioning of petrochemical complexes based on the theory of fuzzy sets and fuzzy logic» AIP Conference Proceedings 2552, 050014 (2023); Published Online: 05 January 2023. https://doi.org/10.1063/5.0112403
. Graham, Christopher Fox, and Lindsay D. WiseGeek. Conjecture, 10 Nov. 2014. Web. 07 Dec.2014.
. Ratliff, Jenn, and Bronwyn Harris. WiseGeek. Conjecture, 07 Nov. 2014. Web. 07 Dec. 2014.
. S. Budak, E. Gulduren, B. Allen, J. Cole, J. Lassiter, T. Colon, C. Muntele, M. A. Alim,S. Bhattacharjee, R. B. Johnson, (2015) “Thermoelectric Generators from SiO2/SiO2+Ge Nanolayers Modified by MeV Si Ions”, Solid-State Electronics 103 131–139.
. S. Budak, R. Parker, C. Smith, C. Muntele, K. Heidary, R. B. Johnson, D.ILA, (2013) “Superlattice Multinanolayered Thin Films of SiO2/SiO2+Ge for Thermoelectric Device Applications”, Journal of Intelligent Material Systems and Structures, 24(11), 1357-1364.
. М.О. Атажонов. Разработка конструкции фототермопреобразователей. Международная научно-практическая конференция посвященная 80 - летию Академии наук Узбекистана “Полупроводниковая опто- и наноэлектроника, альтернативные источники энергии и их перспективы” Андижан, 12-13 октября 2023 года. Ст. 203-204.
. М.О. Атажонов. Исследование гибридных фототермогенераторов и их перспективы. Международная научно-практическая конференция посвященная 80 - летию Академии наук Узбекистана “Полупроводниковая опто- и наноэлектроника, альтернативные источники энергии и их перспективы” Андижан, 12-13 октября 2023 года. Ст. 265-268.
. Государственные стандарты и рекомендации по характеризации термоэлектрических материалов (вставить соответствующие ссылки).
