Abstract
By the multiple-pulse method WAHUHA and the combination WAHUHA and magic-angle sample spinning the 1H chemical shift anisotropy∆S and its spatial average \( \bar G \) was measured for powders of calcium sodium hydrogen silicate (1), barium dL hydrogen silicate (2), dicalcium silicate hydrate A (3). dicalcium silicate hydrate B (4) and xonotlite (5). The values of ∆S and \( \bar G \) depend on the strength of the hydrogen bonding and are in qualitative agreement with the theoretical results of Ditchfield et al.
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References
J.S. Waugh, L.M. Huber and U. Haeberlen, Phys. Rev. Letters 20 (1968), 180
H. Rosenberger, R. Zeiss and A.R. Grimmer, Z. Chem. 15 (1975) 162
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A.-R. Grimmer and H. Rosenberger, submitted to Z. Chemie
H. Rosenberger and A.-R. Grimmer, submitted to Z. Anorg. u. Allg. Chemie
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© 1979 Springer-Verlag Berlin Heidelberg
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Rosenberger, H., Grimmer, AR., Haubenreißer, U., Schnabel, B. (1979). Investigations on the type of OH-Groups in Some Crystalline Silicates by High Resolution NMR-Spectroscopy in Solids. In: Kundla, E., Lippmaa, E., Saluvere, T. (eds) Magnetic Resonance and Related Phenomena. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-81344-3_41
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DOI: https://doi.org/10.1007/978-3-642-81344-3_41
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