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H2O/OH ratio determination in hydrous aluminosilicate glasses by static proton NMR and the effect of chemical shift anisotropy
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UNSPECIFIED (2000) H2O/OH ratio determination in hydrous aluminosilicate glasses by static proton NMR and the effect of chemical shift anisotropy. SOLID STATE NUCLEAR MAGNETIC RESONANCE, 15 (4). pp. 201-207.
Full text not available from this repository, contact author.Abstract
Static H-1 NMR spectra of hydrous NaAlSi3O8 glasses have been acquired at low temperature (140 K) in order to quantitatively determine OH and H2O concentrations. Since both components overlap in the spectra, an unambiguons determination of the line shapes is required. The structurally bonded hydroxyl groups are well described by a Gaussian line and the water molecules exhibit a Fake doublet-like line shape due to the strong proton-proton dipolar interaction. However, at proton resonance frequencies used in this study (360 MHz), the Fake doublet has an asymmetric line shape due to chemical shift anisotropy (CSA), which is significant and must be included in any simulation in order to reproduce the experimental line shape successfully. The simulations for rigid water molecules dissolved in our hydrous aluminosilicate glasses result in a CSA of 30 +/- 5 ppm and a dipolar interaction constant of 63.8 +/- 2.5 kHz (i.e., dipolar coupling constant (DCC) of 42.6 +/- 1.7 kHz), corresponding to a proton-proton distance of r(i j) = 154 +/- 2 pm. In contrast to earlier work, water speciation obtained from the simulations of our H-1 NMR spectra are in excellent agreement with those obtained from infrared (IR) spectroscopy. (C) 2000 Elsevier Science B.V. All rights reserved.
| Item Type: | Journal Article | ||||
|---|---|---|---|---|---|
| Subjects: | Q Science > QD Chemistry Q Science > QC Physics |
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| Journal or Publication Title: | SOLID STATE NUCLEAR MAGNETIC RESONANCE | ||||
| Publisher: | ELSEVIER SCIENCE BV | ||||
| ISSN: | 0926-2040 | ||||
| Official Date: | April 2000 | ||||
| Dates: |
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| Volume: | 15 | ||||
| Number: | 4 | ||||
| Number of Pages: | 7 | ||||
| Page Range: | pp. 201-207 | ||||
| Publication Status: | Published |
Data sourced from Thomson Reuters' Web of Knowledge
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