33S and 14N nuclear magnetic resonance spectra of some sulphur–nitrogen compounds

## Abstract ^33^S NMR spectra have been obtained in the FT mode for some sulphones and sulphonic acids. The investigated compounds show narrow resonance lines. In the case of sulphones, the range of ^33^S chemical shifts is sufficiently wide, i.e. the effects due to changes in substituents are sign

## Abstract Nitrogen‐15 NMR spectra of 11 ketenimines have been taken both at the natural‐abundance level of ^15^N and with the aid of ^15^N‐labeling. The nitrogen chemical shifts are substantially different from those of neutral imines and are upfield, more like those of protonated imines. The res

## 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 ^13^C n.m.r. spectra of four classes of __N__‐aryl sulphur–nitrogen compounds are discussed. The __para__ carbon shieldings of the __N__‐phenyl derivatives reflect the substituents effects of the various nitrogen groups. These show large differences for the four classes of compounds

## Abstract ^13^C NMR spectra of friedelan, friedelan‐21‐one, friedelan‐6‐one, friedelane‐321‐dione, friedelane‐3,6‐dione and friedelane‐3,6,21‐trione have been recorded and signals assigned using off‐resonance decoupling, inversion recovery and lanthanide induced shift techniques.

## 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