Selective carbon excitation and the detection of spatial heterogeneity in cross-polarization magic-angle-spinning NMR

The cross-polarization dynamics between 1 H and 19 F in a Viton-type fluoroelastomer were studied using 19 F magic angle spinning (MAS) and 1 H ! 19 F cross-polarization (CP)/MAS NMR at 188.29 MHz. The phenomenological theory of spin thermodynamics based on the spin temperature hypothesis was employ

## Abstract Extremely broad ^119^Sn resonances, as the result of ^1^__J__(^119^Sn,^11^B) scalar coupling, were readily detected, even for diluted samples (5 mg in 0.5 ml of C~6~D~6~), via inverse two‐dimensional ^1^H{^119^Sn} NMR experiments. Two bis(amino)trimethylstannylboranes and four dialkylam

BoraneÈammonia complexes, trialcynylborazine and N-trimethylcycloborazane were characterized by 15N and 11B solid-state magic angle spinning (MAS) NMR. They are representative of compounds containing BÈN bonds and presenting various N and B environments, either tri-or tetracoordinated. InversionÈrec

## Abstract The channel‐type inclusion complex, (deoxycholic acid)~2~–ferrocene [(DCA)~2~–;ferrocene], was studied by ^13^C cross‐polarization/magic angle spinning NMR spectroscopy. The spectra indicate that two different DCA molecules are present in the crystalline structure. Relaxation data indic

A study of the residual dipolar 15 N, 14 N coupling observed in 15 N cross-polarization magic angle spinning NMR spectra at variable temperature and variable field in 1-amino-and 1-nitropyrazole is reported. Residual dipolar 15 N, 14 N coupling is present in high-resolution 15 N spectra as an asymme