Modulatory resonance recoupling of heteronuclear dipolar interactions under magic angle spinning

Heteronuclear dipolar recoupling with rotational-echo doubleresonance (REDOR) is investigated in the rapid magic-angle spinning regime, where radiofrequency irradiation occupies a significant fraction of the rotor period (10 -60%). We demonstrate, in two model 13 C-15 N spin systems, [1-13 C, 15 N]

Rotational resonance and radiofrequency-driven dipolar recoupling (RFDR) experiments have been used to recover the weak proton dipolar interaction present in peptides bound to swollen resins spun at the magic angle. The intensity of the correlation peaks obtained using these sequences is shown to be

A variety of novel two-dimensional shift correlation ex-initial ''preparation'' period involves the excitation of the coherence, which is sampled during the subsequent ''evoluperiments have been proposed recently (1) which allow contion'' period. In the ''mixing'' period, the coherences which nectiv

The maximum of the transferred magnetization in rotating powdered solids under the radiofrequency-driven recoupling (RFDR) pulse sequence is enhanced by reducing the orientation dependence of the effective recoupled homonuclear dipolar interaction. The compound RFDR (CRFDR) pulse sequence for this e

The effects of molecular motions on the dipolar coupled j3C magic-angle-spinning (MAS) nuclear magnetic resonance (NMR) spectra of alkane-urea inclusion compounds and bis(ethylammonium) hexachlorostannate were investigated. The contact time dependences of "C cross-polarization (CP) MAS NMR spectra w