Multi-Lorentzian representation of deuterium spectrum to study water spin magnetization exchange in MCM-41

Water behavior on the pore surface of nano-silica MCM-41, at a hydration level corresponding to one water molecule per OH group, is studied using 2H NMR spectra in the temperature range 213 to 313K. In an earlier study [J. Hassan, E. Reardon, H. Peemoeller, Microporous Mesoporous Materials, 122 (200...

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Bibliographic Details
Published in:Solid state nuclear magnetic resonance 2012-07, Vol.45-46, p.23-29
Main Authors: Hassan, J., Reardon, E., Peemoeller, H.
Format: Article
Language:English
Subjects:
Deuterons
Hydration
Magnetization
Mathematical models
MCM-41
Multi-Lorentzian representation of line shapes
Nanomaterials
Nanostructure
Nuclear magnetic resonance
Powder pattern and Lorentzian line shapes
Spectra
Spin exchange
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Summary:Water behavior on the pore surface of nano-silica MCM-41, at a hydration level corresponding to one water molecule per OH group, is studied using 2H NMR spectra in the temperature range 213 to 313K. In an earlier study [J. Hassan, E. Reardon, H. Peemoeller, Microporous Mesoporous Materials, 122 (2009) 121–127] it was shown that at this hydration level, deuterons of water at single OH sites exhibit a Lorentzian line shape and deuterons of water at hydrogen-bonded OH sites exhibit a powder pattern. Here it is shown that magnetization exchange occurs between these two deuteron spin groups. This exchange cannot be described using the common, two-site exchange model, involving two Lorentzians. We successfully apply a multi-Lorentzian exchange model, prompted by Woessner's work [D. E. Woessner, Mol. Phys. 34, 4, (1977) 899–920] on the effects of motion on the shape of water spin resonance lines exhibiting doublet splitting. For this low hydration sample the rate of magnetization exchange out of the hydration site, where the water deuterons exhibit a Lorentzian line in the 2H spectra, is 1.3ms−1 and the activation energy for the exchange is found to be 3.4±0.1kcal/mole.
ISSN:0926-2040
1527-3326
DOI:10.1016/j.ssnmr.2012.04.004