Dipolar Heteronuclear Multiple-Quantum NMR Spectroscopy in Rotating Solids

A new pulse sequence for high-resolution solid-state heteronuclear double-quantum MAS NMR spectroscopy of dipolar-coupled spin-12 nuclei is introduced. It is based on the five-pulse sequence known from solution-state NMR, which is here applied synchronously to both spin species. The heteronuclear do

assuming that the sample begins at equilibrium. I and S are Over the past few years, we and others have shown that, the two different kinds of spins ( 1 H and 13 C in our experiin a wide variety of two-dimensional solution NMR experiments, respectively), and the indices i and j run up to the ments,

## Abstract We here report on the influence of heteronuclear dipolar decoupling on the ^27^Al 3QMAS, 5QMAS, and the double‐quantum filter–satellite‐transition magic‐angle spinning (DQF‐STMAS) spectra of a strongly dipolar‐coupled system, gibbsite. The requirements for heteronuclear dipolar decoupli

Relaxation resulting from the modulation of dipolar interaction the quadrupolar interaction. It has been shown that, for 2 H is commonly used for estimating distances in molecules in soluand 23 Na in single crystalline solids, the transitions 0m } tions. However, for most nuclei with spin I ú 1 2 th

Two techniques for resolution and sensitivity enhancement are introduced in multiple-quantum (MQ) MAS spectroscopy of rigid solids. The first makes use of ultrafast MAS with spinning frequencies of up to 35 kHz, while the second combines MAS at moderately fast spinning frequencies of about 13 kHz wi