Abstract
Organic and Medicinal chemistry international Journal is an open access journal that is committed to publish the papers on various topics of chemistry, especially synthetic organic chemistry, and pharmacology and various other biological specialties
Highlights
In recent years glasses biased on V2O5 has attracted attention because of its potential use as cathode in solid-state devices.These glasses electrical properties classified to be similar to the n-type semiconductor
An increase in the glass transition temperature and glass crystallization temperature have been observed with the heating rate increasing
Such behavior may be indicating an increase in the thermal stability of all investigated glasses as the heating rate increase [6,7,8,9,10]
Summary
In recent years glasses biased on V2O5 has attracted attention because of its potential use as cathode in solid-state devices. These glasses electrical properties classified to be similar to the n-type semiconductor. On glasses containing relatively low concentration of V2O5, show that these glasses have a potential application as optical and electrical memory switching, cathode materials for making solid-state devices and optical fiber [1,2,3]. Since the arsenic oxide As2O3 is consider as one of the most efficient fining agent for glass melt because of its ability for removing bubbles from glass mass [5], this article aims to characterize the glassy state of (25+x) mole% V2O5- (55-x) mole% As2O3 -10 mole% Fe2O3-10 mole% CaO glass system.
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