The influence of valence states of tungsten ions on PbO–Y2O3–P2O5 glass network

[Display omitted] •Phosphate glasses doped with varying amount of WO3 were prepared.•The optical absorption spectra of these glasses exhibited a relatively broad band peaking at about 850nm.•ESR was used to identify the valences of the tungsten ions. Lead yttrium phosphate glasses mixed with differe...

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Bibliographic Details
Published in:Journal of molecular structure 2014-09, Vol.1074, p.636-640
Main Author: Prasad, S.V.G.V.A.
Format: Article
Language:English
Subjects:
DTA
PbO–Y2O3–P2O5 glasses
Spectroscopic properties
Tungsten ions
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Summary:[Display omitted] •Phosphate glasses doped with varying amount of WO3 were prepared.•The optical absorption spectra of these glasses exhibited a relatively broad band peaking at about 850nm.•ESR was used to identify the valences of the tungsten ions. Lead yttrium phosphate glasses mixed with different concentrations of WO3 (ranging from 0 to 5.0mol%) were synthesized. Differential thermal analysis (DTA), optical absorption, ESR and IR spectral studies have been carried out. The results of DTA have indicated that there is a gradual decrease in the resistance of the glass against devitrification with increase in the concentration of WO3 up to 3.0mol%. The optical absorption spectra of these glasses exhibited a relatively broad band peaking at about 850nm identified due to dxy−dx2–y2 transition of W5+ ions; this band is observed to be more intense in the spectrum of glass containing 3.0mol% of WO3. The ESR spectra of these glasses recorded at room temperature exhibited an asymmetric signal at g⊥∼1.71 and g||∼1.62. The intensity of the signal is observed to be maximal for the spectrum of the glass PYPW3. The optical absorption and ESR spectral studies have indicated that there is a maximum reduction of tungsten ions from W6+ state to W5+ state in the glass containing 3.0mol% of WO3. The IR spectral studies have indicated that there is an increasing degree of disorder in the glass network with increase in the concentration of WO3 up to 3.0mol%.
ISSN:0022-2860
1872-8014
DOI:10.1016/j.molstruc.2014.06.060