Structure and disorder in Pb-Na metasilicate (PbO:Na2O:2SiO2) glasses: A view from high-resolution 17O solid-state NMR |
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Authors: | Hyo-Im Kim Seoyoung Lee Eun Jeong Kim Sung Keun Lee |
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Affiliation: | School of Earth and Environmental Sciences, Seoul National University, Seoul, Korea |
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Abstract: | Knowledge of the structure of lead (Pb)-bearing silicate glasses, such as degree of polymerization and arrangement among cations, provides improved prospects for understanding their macroscopic properties. Despite the importance, the detailed disorder in Pb-bearing silicate glasses with varying composition (i.e., Pb/alkali content) has not been systematically explored. Here, we reveal the first unambiguous structural information of PbO-Na2O-SiO2 glasses with varying PbO content i.e., XPbO = PbO/(Na2O + PbO)], which are the fundamental model system for multicomponent Pb-bearing glasses, using high-resolution 17O solid-state NMR. 17O NMR spectra clearly show the resolved multiple oxygen sites, such as Na-O-Si, Si-O-Si, and Na,Pb]-O-Si. As XPbO increases, the fraction of Na,Pb]-O-Si peak increases markedly at the expanse of substantial reduction in the fraction of Na-O-Si/total NBO. This trend indicates the relative predominance of the dissimilar pairs around non-bridging oxygen (NBO) and, therefore, can be explained well with the pronounced chemical ordering among Na+ and Pb2+. These results confirm that Pb is primarily a network-modifier in the glasses studied here. Atomic environments around both NBO and BO are affected by the change in Na/Pb ratio, while topological disorder due to cation mixing around NBO is much more prominent in Pb endmember. The structural details of short-range configurations around oxygen in alkali Pb-silicate glasses provide atomistic insights for understanding the properties of Pb-bearing multicomponent silicate glasses. |
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Keywords: | atomic structure disorder glass-ceramics lead alkali silicate glasses nuclear magnetic resonance |
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