Spin-lattice relaxation time of 13C in [Fe(phen)2(N13CS)2]. Nonexponential decay

Synopsis ## I3C spin-lattice relaxation times ( T I ' S ) of four cyclic hexapeptides of sequence, (X-L-Pro-Y)z, are reported. The TI'S of the protonated carbons, which undergo dipolar relaxation, are interpreted qualitatively in terms of the overall tumbling motion of the molecule and in terms o

C and "N NMR chemical shift and spin-lattice relaxation data have been measured for both mew-and racemic-pentane-2,4-diaminediamine. At high pH (lZ), relaxation is consistent with hindered rotation of the NH, group due, in part, to the formation of intramolecular hydrogen bonds. At low pH (Z), relax

To elucidate chiral recognition difference between pairs of enantiomers which interacted with a cellulosic stationary phase of chiral discrimination high performance liquid chromatography (HPLC), 13C NMR spectroscopy was applied for enantiomers of 1phenylethanol, 1-indanol, 1,2,3,4,-tetrahydro-l-nap

## Abstract The modification of the ^13^C spin–lattice relaxation time values for the C atoms in the side‐chain of 4‐(morpholinoethyl)‐1,2,4‐triazole has been found to be characteristic of the structure variation caused by different solvents, and evidence for the formation of an intramolecular hydr