The slip-model for molecular reorientation and the temperature dependence of nuclear relaxation times in neat toluene and chlorobenzene

The relaxation hmes of the opticat Kerr effect of rli~o~n~ene and in-nitrotoiue~e have been measured a$ Q function of tcmpcrature in neat and ntired bmmy liquids. The activation energy of molecular reorientation motion for various solutions 1~s been determined from Kerr effect and viscosity mexarcme

Temperature dependent 13C and 3sC1 NMR relaxation times in liquid CC1 are used to derive values of both the reorientational and angular momentum correlation times 70,~ and Tj. The relationship found between i-9,2 and TJ is k quantitntive qreement with the extended J-diffusion model for molecular reo

To gain further insight into the effect of molecular mobility on the crystallization rate of amorphous drugs, the mean relaxation times of amorphous nifedipine and phenobarbital were calculated based on the Adam±Gibbs±Vogel (AGV) equation, using the parameters D, T 0 , and T f , derived from the hea

A fundamental problem in Fourier transform NMR spectroscopy is the calculation of observed resonance amplitudes for a repetitively pulsed sample, as first analyzed by Ernst and Anderson in 1966. Applications include determination of spin-lattice relaxation times (T 1 's) by progressive saturation an