M. Subhadra scite author profile

Glasses with composition 15Li(2)O-15K(2)O-xBi(2)O(3)-(65 - x)-B(2)O(3)/5V(2)O(5) (3 ≤ x ≤ 15) have been prepared by the conventional melt quench technique. The electron paramagnetic resonance spectra of VO(2+) in these glasses have been recorded in the X-band frequency (≈9.3 GHz) at room temperature. The spin Hamiltonian parameters and covalency rates were evaluated. It was found that the V(4+) ions exist as vanadyl (VO(2+)) ions and are in an octahedral coordination with a tetragonal compression. The covalency rates (1 - α(2)) and (1 - γ(2)) indicate moderate covalency for the σ- and π-bonds. It was observed that the spin-Hamiltonian parameters depend slightly on the relative concentration of Bi(2)O(3). The optical properties of this glass system are studied from the optical absorption spectra recorded in the wavelength range 200-800 nm. The fundamental absorption edge has been identified from the optical absorption spectra. The values of optical band gap for indirect allowed transitions have been determined using available theories. The direct current electrical conductivity, σ, has been measured in the temperature range 373-573 K. The conductivity decreases with the increase in Bi(2)O(3) concentration. This has been discussed in terms of the decrease in the number of mobile ions and their mobility. An attempt is made to correlate the EPR, optical, and electrical results and to find the effect of Bi(2)O(3) content on these parameters.

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Effect of V2O5 content on physical and optical properties of lithium bismuth borate glasses

Subhadra

Sulochana

Kistaiah

2018

Materials Today: Proceedings

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M. Subhadra

Infrared and Raman spectroscopic studies of alkali bismuth borate glasses: Evidence of mixed alkali effect

Characterization and optical absorption studies of VO2+:Li2O–K2O–Bi2O3–B2O3 glass system

Effect of Bi2O3 content on physical and optical properties of 15Li2O–15K2O–xBi2O3–(65−x) B2O3: 5V2O5 glass system

Effect of Bi₂O₃ Addition on Electron Paramagnetic Resonance, Optical Absorption, and Conductivity in Vanadyl-Doped Li₂O−K₂O−Bi₂O₃−B₂O₃ Glasses

Effect of V2O5 content on physical and optical properties of lithium bismuth borate glasses

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M. Subhadra

Infrared and Raman spectroscopic studies of alkali bismuth borate glasses: Evidence of mixed alkali effect

Characterization and optical absorption studies of VO2+:Li2O–K2O–Bi2O3–B2O3 glass system

Effect of Bi2O3 content on physical and optical properties of 15Li2O–15K2O–xBi2O3–(65−x) B2O3: 5V2O5 glass system

Effect of Bi2O3 Addition on Electron Paramagnetic Resonance, Optical Absorption, and Conductivity in Vanadyl-Doped Li2O−K2O−Bi2O3−B2O3 Glasses

Effect of V2O5 content on physical and optical properties of lithium bismuth borate glasses

Contact Info

Product

Resources

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Effect of Bi₂O₃ Addition on Electron Paramagnetic Resonance, Optical Absorption, and Conductivity in Vanadyl-Doped Li₂O−K₂O−Bi₂O₃−B₂O₃ Glasses