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Measurement of 13C chemical shift tensor principal values with a magic-angle turning experiment.

Solid state nuclear magnetic resonance (1994-08-01)
J Z Hu, A M Orendt, D W Alderman, R J Pugmire, C Ye, D M Grant
RÉSUMÉ

The magic-angle turning (MAT) experiment introduced by Gan is developed into a powerful and routine method for measuring the principal values of 13C chemical shift tensors in powdered solids. A large-volume MAT probe with stable rotation frequencies down to 22 Hz is described. A triple-echo MAT pulse sequence is introduced to improve the quality of the two-dimensional baseplane. It is shown that measurements of the principal values of chemical shift tensors in complex compounds can be enhanced by using either short contact times or dipolar dephasing pulse sequences to isolate the powder patterns from protonated or non-protonated carbons, respectively. A model compound, 1,2,3-trimethoxybenzene, is used to demonstrate these techniques, and the 13C principal values in 2,3-dimethylnaphthalene and Pocahontas coal are reported as typical examples.

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Sigma-Aldrich
1,2,3-Trimethoxybenzene, 98%
Sigma-Aldrich
2,3-Dimethylnaphthalene, 97%