13C, 14N and 2H magnetic relaxation and anisotropic molecular reorientation of nitrobenzene

## Abstract Although dibromomethane is a simple molecule, little work has been directed toward the analysis of its reorien‐tational motion. This is surprising, since two components of its inertia tensor are nearly degenerate and may, in principle, be treated as a quasi‐symmetric top. The ^13^C spin

Reorientational and angular momentum correlation tmes \(\tau_{c}\) and \(t_{f}\) for \(\mathrm{CCl}_{4}\) and \(\mathrm{CS}_{2}\) in alh anes hate been derived from \({ }^{13} \mathrm{C}\) spin-spin relasetion times of \(\mathrm{CCl}_{4}\) and \({ }^{33} \mathrm{~S}\) linew idths of \(\mathrm{CS}_{2

times T, of hexanuorobenzene in binary liquid mixtures with benzene and cyclohexane at 25 "C were studied at resonance frequencies of 19.5 and 83 MHz. The data indicate a frequency dependence of T, caused by relaxation through chemical shift anisotropy, enabling the correlation time 7L for the tumbl

## Abstract The dynamic behaviour of [Lys^8^]‐vasopressin derivatives, especially of __N__‐Gly‐Gly‐Gly‐[Lys^8^]‐vasopressin in solution, was investigated by NMR relaxation studies. One can derive a set of dynamics data which describe the molecular tumbling in solution from ^13^C spin–lattice relaxa

## Abstract The internal and overall motions of 1,3‐ and 1,4‐diethylpyridinium bromides have been studied by ^13^C relaxation. The enthalpies of activation for the rotation of the ethyl groups in positions 1 and 3 are deduced from the temperature dependence of the __T__~1~ values of the methylene a