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Literature DB >> 19185521

Robust and efficient spin-locked symmetry-based double-quantum homonuclear dipolar recoupling for probing (1)H-(1)H proximity in the solid-state.

B Hu¹, Q Wang, O Lafon, J Trébosc, F Deng, J P Amoureux.

Abstract

We report a novel symmetry-based method, using inversion elements bracketed by spin locks, for exciting double-quantum (DQ) coherences between spin-1/2 nuclei, such as protons. Compared to previous DQ-recoupling techniques, this new pulse sequence requires moderate rf field, even at ultra-fast MAS speeds. Furthermore, it is easy to implement and it displays higher robustness to both chemical shift anisotropy and to spreads in resonance frequencies. These advances greatly facilitate the observation of (1)H-(1)H proximities at high fields and high MAS frequencies.

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Year: 2009 PMID： 19185521 DOI： 10.1016/j.jmr.2009.01.002

Source DB: PubMed Journal: J Magn Reson ISSN： 1090-7807 Impact factor: 2.229

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Cited

1 in total

1. Determination of Long-Range Distances by Fast Magic-Angle-Spinning Radiofrequency-Driven ¹⁹F-¹⁹F Dipolar Recoupling NMR.

Authors: Matthias Roos; Venkata S Mandala; Mei Hong
Journal: J Phys Chem B Date: 2018-09-27 Impact factor: 2.991

1 in total

Robust and efficient spin-locked symmetry-based double-quantum homonuclear dipolar recoupling for probing (1)H-(1)H proximity in the solid-state.

1. Determination of Long-Range Distances by Fast Magic-Angle-Spinning Radiofrequency-Driven 19F-19F Dipolar Recoupling NMR.

1. Determination of Long-Range Distances by Fast Magic-Angle-Spinning Radiofrequency-Driven ¹⁹F-¹⁹F Dipolar Recoupling NMR.