1997
DOI: 10.1016/s0022-3093(97)00037-9
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Local cation environments in mixed alkali silicate glasses studied by multinuclear single and double resonance magic-angle spinning NMR

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Cited by 70 publications
(153 citation statements)
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“…However, these fi ndings contradict the evidence for like-cation association discussed above. Similar results to those of Gee et al (1997) have been made for sodium-cesium (Dupree et al 1986) and sodium-rubidium (Hater et al 1989) silicate glasses. Florian et al (1996) used NMR to probe the structure of sodium and potassium mixed-alkali glasses of varying composition.…”
Section: Mixed Alkali Silicate Glassessupporting
confidence: 84%
See 1 more Smart Citation
“…However, these fi ndings contradict the evidence for like-cation association discussed above. Similar results to those of Gee et al (1997) have been made for sodium-cesium (Dupree et al 1986) and sodium-rubidium (Hater et al 1989) silicate glasses. Florian et al (1996) used NMR to probe the structure of sodium and potassium mixed-alkali glasses of varying composition.…”
Section: Mixed Alkali Silicate Glassessupporting
confidence: 84%
“…As an alternative, Gee et al (1997) studied mixed Li-Na silicate glasses. They found the NMR chemical shifts to move in the same direction as an increase in the compositional parameter Na/(Na + Li), thus providing evidence in support of the two-site hypothesis; the Na Na site probability will increase with increasing Na/(Na + Li), and the Li Na site probability also will increase with increasing Na/(Na + Li).…”
Section: Mixed Alkali Silicate Glassesmentioning
confidence: 99%
“…lithium). Inspection of a large body of chemical shift trends in various mixed-alkali glasses suggests that these structural readjustments are rather universal [59][60][61][62][63][64][65][66][67][68][69][70][71][72][73][74]: substitution of an alkali ion A by larger homologue B always leads to a slight compression of the A site and an expansion of the B site, compared to the situation in the corresponding single-alkali glass. Based on this evidence for site modification, we have suggested an additional ("secondary") mismatch effect as a fundamental principle underlying the MAE, which seems particularly relevant in the dilute foreign ion limit (see Fig.…”
Section: Site Modifications and Secondary Mismatch Effectsmentioning
confidence: 99%
“…[6,16] These techniques are also extremely useful in the study of glasses, e.g., TRAPDOR of aluminosilicate glasses [17,18] and REDOR of silicate and aluminoborate glasses. [19,20] This research news article has highlighted the development of double resonance NMR echo techniques in solids, in particular the 29 …”
Section: Other Applications and Scopementioning
confidence: 99%
“…However, materials that lack longrange order such as glasses or even crystalline materials that exhibit disorder often rely on a variety of methods that are sensitive to short-range interactions for definition of structure. Nuclear magnetic resonance (NMR) spectroscopy has contributed to the understanding of local interactions in solids since its earliest days, mainly by the use of abundant nuclei such as 1 H and 19 F. The ever-advancing state-of-the-art of NMR spectroscopy now makes it possible to tackle a wide range of complex problems using a variety of nuclear spins as probes. With the general availability of multi-channel instruments and high magnetic fields, much of the periodic table becomes accessible to anyone with access to a modern commercial high-field spectrometer.…”
Section: Introductionmentioning
confidence: 99%