13C spin-lattice relaxation in benzophenone and its isotopomers

## Spin-lattice relaxation times of t3C nuclei in organic compounds have been measured in a wide temperature range. The dipole-dipole interaction with protons is predominant at lower temperatures and the spin-rotation interaction at higher temperatures. Both the measured relaxation times and r3C c

## Spin-lattice relaxation times of 13C nuclei in pyridine and tetrahydrofurane have been measured at various temperatures. Mainly dipole-dipole interaction was found to influence the relaxation behaviour below 273°K. Spinrotation, which predominates at higher temperatures, was found to contribute

The paper is devoted to investigations of spin-lattice relaxation ation determined by nuclear dipole-dipole interactions for processes in 99% 13 C-enriched diamonds. Relaxation time measpin-1 2 nuclei and T imp 1 is the impurity component of the spinsurements were performed as a function of orientat

The individual 13C spin-lattice relaxation times in three molecules of different molecular size -codeine, brucine and reserpine -have been determined. In all three molecules, T, for methine carbons, being part of the isotropically reorientating skeleton, ranges from 0.15 to 0.23 set corresponding to

## Abstract The contributions to the ^13^C NMR spin–lattice relaxation rates of both protonated and non‐protonated carbons of a range of carbocations in superacids were determined from the analysis of __T__~1~ values measured over a range of temperatures and at different field strengths. From the d