Open AccessCharacterization of Glassy TeO2 and Binary Potassium and Boron Tellurites
Author(s) -
Megha,
Mansi
Publication year - 2020
Publication title -
international journal of scientific research in science and technology
Language(s) - English
Resource type - Journals
eISSN - 2395-602X
pISSN - 2395-6011
DOI - 10.32628/ijsrst207464
Subject(s) - boron , raman spectroscopy , potassium , infrared , characterization (materials science) , glass transition , materials science , binary number , mineralogy , optics , chemistry , nanotechnology , physics , mathematics , metallurgy , arithmetic , organic chemistry , composite material , polymer
Tellurite glasses show potential for use in mid-infrared optical applications1, yet their structure has not been seriously contemplated. While they don't lead light better than chalcogenides, which are as of now the best glasses for infrared optics, they are a lot simpler to create. Potassium and boron tellurite glasses, including single part, quickly cooled TeO2, are accounted for and concentrated here. The outcomes incorporate the Glass Transition Temperature (Tg) estimations and Raman spectra. Proposed auxiliary models are additionally examined.