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Impurity Bands and Density of State in Doped Silicate Glasses with Metal Oxides (RuO2, CuO, MnO2)

G. AbdurakhmanovNational University of Uzbekistan Named after Mirzo, Ulugbek, UzbekistanA. T. DekhkanovNational University of Uzbekistan Named after Mirzo, Ulugbek, UzbekistanМ. Н. ТурсуновNational University of Uzbekistan Named after Mirzo, Ulugbek, UzbekistanД. А. ТашмухамедоваTashkent State Technical University Named after Islam, Karimov, Uzbekistan

Physical Science International Journaljournal2023en

ABI

Annotatsiya

In this article, as a result of double alloying with ruthenium, copper, manganese oxides, the formation of an impurity band in silicate glass and how the density of electron states changes in it was studied by hypothetical and tunneling microprobe spectroscopy. The results of the experiment were processed using Wolfram Mathematica 11 software. It was found that around room temperature, the impurity band touches or merges with the valence band of the glass. At a high temperature (around 1000 K), the impurity band separates from the valence band of the glass, and a pseudo-gap appears between them. As a result, doped silicate glass exhibits metallic conductivity at room temperature, but at high temperatures, it has semiconductor (activation) conductivity.

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Mavzular

Glass properties and applications Surface Roughness and Optical Measurements Silicon Nanostructures and Photoluminescence

Identifikatorlar

DOI: 10.9734/psij/2023/v27i6806

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