Nuclear magnetic resonance spectra of acetamide-15N: Solvent and temperature effects

## Abstract The benzene‐induced solvent effects upon the proton chemical shifts of various pyrazines, pyrimidines and their __N__‐oxides are described. Larger chemical shift effects, implying closer benzeneheterocycle association, are noted in the __N__‐oxides as compared to the non‐oxidized hetero

## Abstract ^15^N chemical shifts of the __Z__ and __E__ isomers of twenty‐two ketoximes and fourteen aldoximes have been determined at the natural‐abundance level of ^15^N, using Fourier transform methods. The influences of π delocalization, methyl substituents and solute concentration on the oxim

## Abstract The ^15^N NMR spectra of ten isocyanates, four isothiocyanates, and four __N__‐sulfinylamines have been obtained at the natural‐abundance level by high‐resolution NMR spectroscopy. The results show that isocyanates and isothiocyanates have ^15^N chemical shifts over 200 ppm toward highe

## Abstract The base‐catalyzed NH~2~ exchange reactions of acetamide and thioacetamide were studied by ^15^N nuclear magnetic resonance spectroscopy by the use of line‐shape analysis. The ^15^N NMR spectra of these primary amides at intermediate exchange rates were broad doublets, which indicated

Carbon-13 chemical shifts are reported for tetralin, hydrophenanthrenes and hydropyrenes and their alkyl substituted derivatives. Mono-and di-plus tri-aromatic fractions of hydrogenated phenanthrene and pyrene were also examined by carbon-13 n.m.r. and, wherever possible, the components in them ide