Optical constants of Bi2Te3 (Bismuth telluride)
Ermolaev et al. 2024: CVD flakes; n,k 0.450–1.50 µm
Complex refractive index (n+ik)
Derived optical constants
Conditions
substrate: Si/SiO2
Comments
Bi2Te3 CVD flakes on silicon substrate with 290 nm silicon dioxide.
References
G. A. Ermolaev, I. S. Vyslanko, M. A. El-Sayed, M. K. Tatmyshevskiy, A. S. Slavich, D. I. Yakubovsky, A. Eghbali, R. I. Romanov, A. M. Markeev, I. A. Kruglov, S. M. Novikov, A. A. Vyshnevyy, A. V. Arsenin, V. S. Volkov. Unveiling the broadband optical properties of Bi2Te3: Ultrahigh refractive index and promising applications. Appl. Phys. Lett., 125, 241101 (2024) (Numerical data kindly provided by Georgy Ermolaev)
Data
Additional information
About Bismuth telluride
Bi2Te3, or bismuth telluride, is a layered compound with a rhombohedral crystal structure, renowned for its thermoelectric properties and significant role in energy conversion applications. It is a topological insulator that exhibits unique electronic states on its surface while being insulating in its bulk. In optics, Bi2Te3 is recognized for its high refractive index and strong optical anisotropy, stemming from its layered structure. The material's narrow bandgap and excellent carrier mobility make it suitable for infrared photodetectors, modulators, and other optoelectronic devices. Bi2Te3 can be synthesized using techniques such as zone melting, Bridgman-Stockbarger, and chemical vapor deposition (CVD). However, it is sensitive to environmental conditions, necessitating protective measures to preserve its optical and electronic properties. This material continues to be a subject of intense research for applications in thermoelectrics, photonics, and quantum technology.
Other names and variations:- Bi2Te3
- Bismuth(III) telluride
- Dibismuth tritelluride
- Telluroxobismuth
- Tellanylidenebismuth