Shift Anisotropy Tensors in Amorphous Natural-Abundance Solids: High-Resolution 29Si Chemical Shift Anisotropy Distributions under Very Slow Sample Rotation

Sakellariou, D.; Charpentier, T.

doi:10.1007/s00723-007-0039-7

Shift Anisotropy Tensors in Amorphous Natural-Abundance Solids: High-Resolution ²⁹Si Chemical Shift Anisotropy Distributions under Very Slow Sample Rotation

Published: December 2007

Volume 32, pages 583–594, (2007)
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D. Sakellariou¹ &
T. Charpentier¹

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Abstract.

The magic-angle turning technique is applied to amorphous natural-abundance silicate materials and high-resolution silicon-29 correlations between the isotropic and anisotropic chemical shifts are obtained. Very narrow tilted spinning sideband patterns are resolved in the two-dimensional spectra whose line width corresponds to the natural line width of the silicon nuclei. Various numerical approaches are implemented to extract the distribution of the chemical shift anisotropy tensors in these materials and their results are compared.

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Laboratoire de Structure et Dynamique par Résonance Magnétique, Commissariat à l'Energie Atomique Saclay, Gif-sur-Yvette, France
D. Sakellariou & T. Charpentier

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D. Sakellariou
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T. Charpentier
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Authors' address: Dimitris Sakellariou, Laboratoire Claude Fréjacques, Service de Chimie Moléculaire, Commissariat à l'Energie Atomique Saclay, 91191 Gif-sur-Yvette cedex, France

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Sakellariou, D., Charpentier, T. Shift Anisotropy Tensors in Amorphous Natural-Abundance Solids: High-Resolution ²⁹Si Chemical Shift Anisotropy Distributions under Very Slow Sample Rotation. Appl Magn Reson 32, 583–594 (2007). https://doi.org/10.1007/s00723-007-0039-7

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Received: 26 March 2007
Issue Date: December 2007
DOI: https://doi.org/10.1007/s00723-007-0039-7

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Shift Anisotropy Tensors in Amorphous Natural-Abundance Solids: High-Resolution ²⁹Si Chemical Shift Anisotropy Distributions under Very Slow Sample Rotation

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Shift Anisotropy Tensors in Amorphous Natural-Abundance Solids: High-Resolution 29Si Chemical Shift Anisotropy Distributions under Very Slow Sample Rotation

Abstract.

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The curious case of the structural phase transition in SnSe insights from neutron total scattering

Heterogeneous Rotational and Translational Dynamics in Glasses and Other Disordered Materials Studied by NMR

Heterogeneous Rotational and Translational Dynamics in Glasses and Other Disordered Materials Studied by NMR

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Shift Anisotropy Tensors in Amorphous Natural-Abundance Solids: High-Resolution ²⁹Si Chemical Shift Anisotropy Distributions under Very Slow Sample Rotation