Structural study of Mg-bearing sodosilicate glasses by Raman spectroscopy

Structural study of Mg-bearing sodosilicate glasses by Raman spectroscopy

The presence of magnesium in glasses of geological, medical, and technological interests influences their physicochemical and durability properties. However, the understanding of the role of magnesium is dependent on the combined knowledge of the structural environment of magnesium in the glass or m...

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Bibliographic Details
Published in:Journal of Raman spectroscopy Vol. 42; no. 4; pp. 765 - 772
Main Authors: Trcera, Nicolas, Rossano, Stéphanie, Tarrida, Martine
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-04-2011
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Subjects:
Bending
Glass
Magnesium
Networks
Polymerization
Qn distribution
Raman spectroscopy
silicate glasses
Silicates
Wavenumber
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Summary:The presence of magnesium in glasses of geological, medical, and technological interests influences their physicochemical and durability properties. However, the understanding of the role of magnesium is dependent on the combined knowledge of the structural environment of magnesium in the glass or melt and of the silicate network connectivity of the studied systems. In this article, we present a Raman spectroscopic study of the network connectivity of 10 ternary silicate glasses in the system Na2OMgOSiO2 and one Mg‐free binary silicate glass Na2OSiO2. Results obtained at constant polymerization suggest the existence of various Qn units according to the nature of the modifying cation. As polymerization decreases for Na2OMgOαSiO2 glasses (labeled as NMSα with α decreasing from 10 to 2), the band associated with SiOSi bending in fully polymerized region disappears being gradually replaced by a band attributed to SiOSi bending in region containing mainly Q2 and Q3 species. For highly polymerized glasses (NMS10‐NMS4), the coexistence of these two bands suggests the presence of two interconnected networks. Concomitantly, the signal associated with Q3 species first increases. For a further decrease of the polymerization, the high wavenumber part of the signal associated with Q3 species decreases, while the intensity of the high wavenumber part of the band related to Q2 species increases. This result strongly suggests that magnesium charge‐balances preferentially Q2 species rather than Q3 species. Copyright © 2010 John Wiley & Sons, Ltd. This article deals with a Raman spectroscopic study of the network connectivity of glasses in the Na2OMgOSiO2 system. For a constant polymerization degree, variations in composition suggest the existence of various Qn units according to the nature of the modifying cation. For a constant Na/Mg ratio, variations in polymerization imply a modification of the Raman spectra. In particular, the changes observed in the SiO stretching vibration region suggest that magnesium charge‐balances preferentially Q2 species rather than Q3 species.
Bibliography:istex:7E5C7CE6AB634009F479CA42BF34749AD6C7A18A
ArticleID:JRS2763
ark:/67375/WNG-DVQ9ZBPW-L
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0377-0486
1097-4555
1097-4555
DOI:10.1002/jrs.2763