STRUCTURE AND REDOX CHEMISTRY OF TIN IN SnONaPO3 PSEUDO-BINARY GLASSES
Thermal and spectroscopic investigations have been carried out on a number of binary SnO-NaPO3 glasses over a wide range of compositions; SnO:NaPO3 from 0:100 to 45:55. Structures of the glasses have been investigated using Raman, FTIR, 31P-HR-MAS-NMR and 119Sn Mossbauer spectroscopies. 119Sn Mossba...
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| Published in | Journal of non-crystalline solids Vol. 291; no. 1-2; pp. 93 - 106 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
01.01.2001
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| Online Access | Get full text |
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| Abstract | Thermal and spectroscopic investigations have been carried out on a number of binary SnO-NaPO3 glasses over a wide range of compositions; SnO:NaPO3 from 0:100 to 45:55. Structures of the glasses have been investigated using Raman, FTIR, 31P-HR-MAS-NMR and 119Sn Mossbauer spectroscopies. 119Sn Mossbauer spectra suggests that there is an equilibrium of SnII(SnO) and SnIV(SnO2) in the glasses in the ratio 40:60 irrespective of the composition. 31P-MAS-NMR, IR and Raman spectra confirm the partial oxidation of SnO to SnO2. The unoxidized part of SnO in the glass acts as a modifier up to 27 mol% of nominal composition. Above this concentration, SnO acts as a glass former. SnO2 always behaves as a glass network former. A structural model has been proposed, which envisages SnIV as playing a key role in preserving part of the metaphosphate units in the structure so that SnO changes its role from a modifier to former above 27 mol% (SnO) concentration. The model is consistent with the behavior of Tg, molar volumes and compositional dependence of ir and Raman spectroscopic features. 44 refs. |
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| AbstractList | Thermal and spectroscopic investigations have been carried out on a number of binary SnO-NaPO3 glasses over a wide range of compositions; SnO:NaPO3 from 0:100 to 45:55. Structures of the glasses have been investigated using Raman, FTIR, 31P-HR-MAS-NMR and 119Sn Mossbauer spectroscopies. 119Sn Mossbauer spectra suggests that there is an equilibrium of SnII(SnO) and SnIV(SnO2) in the glasses in the ratio 40:60 irrespective of the composition. 31P-MAS-NMR, IR and Raman spectra confirm the partial oxidation of SnO to SnO2. The unoxidized part of SnO in the glass acts as a modifier up to 27 mol% of nominal composition. Above this concentration, SnO acts as a glass former. SnO2 always behaves as a glass network former. A structural model has been proposed, which envisages SnIV as playing a key role in preserving part of the metaphosphate units in the structure so that SnO changes its role from a modifier to former above 27 mol% (SnO) concentration. The model is consistent with the behavior of Tg, molar volumes and compositional dependence of ir and Raman spectroscopic features. 44 refs. |
| Author | Rao, K J Berry, F J Harish Bhat, M Jiang, J Z |
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| Title | STRUCTURE AND REDOX CHEMISTRY OF TIN IN SnONaPO3 PSEUDO-BINARY GLASSES |
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