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Physical properties and structural studies of lithium borophosphate glasses containing TeO2
Authors: Mošner Petr | Kupetska Oksana | Koudelka Ladislav | Kalenda Petr
Year: 2019
Type of publication: článek v odborném periodiku
Name of source: Journal of Solid State Chemistry
Publisher name: Elsevier Science Inc.
Place: New York
Page from-to: 547-552
Titles:
Language Name Abstract Keywords
cze Struktura a vlastnosti lithných fosforečnanových skel s obsahem TeO2 Práce je zaměřena na studium struktury, termického chování a fyzikálně-chemických vlastností lithných borofosforečnanových skel s obsahem TeO2, připravených v kompoziční řadě (100-x)[0.5Li2O-0.1B2O3-0.4P2O5]-xTeO2 a v kompozičním rozsahu x = 0-80 mol % TeO2. fosforečnanová skla; tellurátová skla; struktura; vlastnosti
eng Physical properties and structural studies of lithium borophosphate glasses containing TeO2 This work presents a study on the structure, thermal behavior and properties of (100-x)[0.5Li2O-0.1B2O3-0.4P2O3]-xTeO2 glasses prepared within the concentration range of x = 0-80 mol% TeO2 . The structure of the glasses was studied with a combined Raman, 31P and 11B MAS NMR spectroscopy. 31P MAS NMR and Raman spectrum of the pure 50Li2O-10B2O3-40P2O5 glass indicates the co-existence of Q(2) and Q(1) phosphate units in the glass structure. Raman spectra of TeO2 containing glasses revealed that TeO2 is incorporated in the structural network in the form of TeO3 and TeO4 (TeO3+1) units. The ratio of TeO4/TeO3 increases with rising TeO2 content. Apart from the formation of P-O-Te and Te-O-Te bonds, the formation of B-O-Te bonds in the form of mixed tetrahedral units B(OP)(4-n)(OTe)n. also takes place as shown by 11B MAS NMR spectroscopy. The structural studies were correlated with the thermal behavior and physical properties of glasses (density, molar volume, chemical durability and refractive index). DSC studies showed that all glasses crystallize on heating within a temperature region of 400-550 degrees C and the surface nucleation mechanism prevails over the internal one. The crystallization temperature decreases with increasing TeO2 content. The compounds formed by crystallization were LiPO3, Li4P2O7, BPO4 and alpha-TeO2. Glass transition temperature and dilatometric softening temperature, estimated from thermodilatometry curves, decrease with increasing TeO2 content, whereas the thermal expansion coefficient increases. Phosphate glasses; Tellurite glasses; Structure; Properties

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