Abstract
Thermoelectric materials in the form of thin films are used to create a wide variety of sensors and devices. The efficiency of these devices depends on the quality and efficiency of the thermoelectric materials obtained in the form of thin films. Earlier, we demonstrated that it is possible to obtain high-performance Bi2Te3Sb1.5 films less than 1 μm thick on polyimide substrates by using the PLD method, and determined optimal growth conditions. In the current work, the relationship between growth conditions and droplet fraction on the surface, microstructure, grain size, film thickness and chemical composition was studied. A power factor of 5.25 μW/cm×K2 was achieved with the reduction of droplet fraction on the film surface to 0.57%. The dependencies of the film thickness were studied, and the effect of the thickness on the efficiency of the material is shown. The general trend in the growth dynamics for Bi2Te3Sb1.5 films we obtained is the reduction of crystalline size with Pressure-Temperature (PT) criterion. The results of our work also show the possibility of a significant reduction of droplet phase with simultaneous management of crystalline features and thermoelectric efficiency of Bi2Te3Sb1.5 films grown on polyimide substrates by varying growth conditions.
Funder
Bauman Moscow State Technical University
Subject
General Materials Science
Reference45 articles.
1. Development of a Mathematical Model for Optimizing the Design of an Automotive Thermoelectric Generator Taking into Account the Influence of Its Hydraulic Resistance on the Engine Power;Poshekhonov;Semiconductors,2017
2. Modeling of Thermoelectric Generator Power Characteristics for Motorcycle-Type Engines;Osipkov;J. Electron. Mater.,2017
3. Thermoelectric Cooling Materials;Mao;Nat. Mater.,2021
4. Higomo, S., Yagi, T., Obara, H., Yamamoto, A., Ueno, K., Iida, T., Taketoshi, N., and Baba, T. (2008, January 1–4). Thermoelectric Properties of Bi2Te3 Based Thin Films Fabricated by Pulsed Laser Deposition. Proceedings of the Materials Research Society Symposium Proceedings, Boston, MA, USA.
5. Heikes, R.R., Ure, R.W., and Angello, S.J. (1961). Thermoelectricity: Science and Engineering, Interscience Publishers.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献