Intermolecular effects on the 1H and 13C magnetic shielding of methane

## Abstract The intermolecular Overhauser effect {^1^H}^13^C is studied on two binary systems chloroform/carbon disulfide and chloroform/acetone. Some comments are made concerning the use of these measurements for the study of intermolecular interactions in solution.

## Abstract The proton and ^13^C shielding constants in CH~4~, C~2~H~6~, C~3~H~8~, and some other gaseous hydrocarbons have been studied as functions of density at temperatures in the range 180–370 K. The linear coefficients describing the density dependence of the shielding, after correcting for b

## Abstract Values of the first‐order derivatives of proton and ^13^C shielding with respect to gas density for several hydrocarbons over the temperature range 180–370 K are fitted to a long‐standing theory. The theory includes consideration of (a) the ‘site factor’ allowing for the position of the

The anisotropies, Atr, of the ]H and 13C nuclear shielding tensors of chloroform were determined experimentally and theoretically. The liquid crystal NMR ENEMIX method gives Ao" c = --51.8 to --51.4 ppm in excellent agreement with ab initio GIAO SCF/MCSCF calculations resulting in -51 ppm, preferrin

From high-resolution solid-state lSC NMR spectra for the enol forms of some diketones, an average chemical shift of the carbonyl and enol carbons in dimedone is found to move remarkably downfield compared with the corresponding shift in DMSO~/6, which is ascribed to a strong intermolecular hydrogen