13C Nuclear Spin Relaxation Study of Haloethynyltrimethylsilanes. Carbon–Halogen Interaction

The spin-lattice relaxation of ten polychloroalkanes (ethanes to pentanes) have been studied both neat and in a 50% solution in CDC13. The Tl values for the CH,, CH,Cl and CHCl, carbons decrease with increasing molecular weight in accordance with a dipolar-dominated mechanism, whereas those of the C

Multiple-field carbon-13 NMR relaxation studies were performed on four disaccharides with different sugar residues, anomeric configurations and substitution positions. Measurements were made in dimethyl sulfoxide at 300 K, leading to conditions outside the extreme narrowing regime. Global correlatio

Determination of the spin-spin coupling constants be-In oriented phases, the parallel and the perpendicular components of the effective coupling constants become tween spin-1 2 and quadrupole nuclei is usually complicated by the rapid relaxation of the latter (1). The appropriate scalar coupling con

The effect of temperature on the spin-lattice ( R , ) and spin-spin (R,) I3C relaxation rates of gluconate and manganese (II)-gluconate interactions was determined in D,O. An R, vs T-' minimum was observed for gluconate similar to that observed in solid-liquid phase transitions. Nuclear Overhauser e

## Abstract The longitudinal ^13^C spin relaxation times T~1~ and the ^13^C{^1^H} nuclear Overhauser enhancement were measured in a concentrated aqueous solution of the basic pancreatic trypsin inhibitor. The correlation time for overall rotational motions of the basic pancreatic trypsin inhibitor