19F-decoupling of half-integer spin quadrupolar nuclei in solid-state NMR: 
Application of frequency-swept decoupling methods

Chandran, C. V.; Hempel, G.; Bräuniger, T.

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¹⁹F-decoupling of half-integer spin quadrupolar nuclei in solid-state NMR: Application of frequency-swept decoupling methods

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Bräuniger, T.
Max Planck Society;

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Chandran, C. V., Hempel, G., & Bräuniger, T. (2011). ¹⁹F-decoupling of half-integer spin quadrupolar nuclei in solid-state NMR: Application of frequency-swept decoupling methods. Solid State Nuclear Magnetic Resonance, 40(2), 84-87.

Cite as: https://hdl.handle.net/21.11116/0000-000E-BFC9-9

Abstract

In solid-state NMR studies of minerals and ion conductors, quadrupolar nuclei like (7)Li, (23)Na or (133)Cs are frequently situated in close proximity to fluorine, so that application of (19)F decoupling is beneficial for spectral resolution. Here, we compare the decoupling efficiency of various multi-pulse decoupling sequences by acquiring (19)F-decoupled (23)Na-NMR spectra of cryolite (Na(3)AlF(6)). Whereas the MAS spectrum is only marginally affected by application of (19)F decoupling, the 3Q-filtered (23)Na signal is very sensitive to it, as the de-phasing caused by the dipolar interaction between sodium and fluorine is three-fold magnified. Experimentally, we find that at moderate MAS speeds, the decoupling efficiencies of the frequency-swept decoupling schemes SW(f)-TPPM and SW(f)-SPINAL are significantly better than the conventional TPPM and SPINAL sequences. The frequency-swept sequences are therefore the methods of choice for efficient decoupling of quadrupolar nuclei with half-integer spin from fluorine. (C) 2011 Elsevier Inc. All rights reserved.