1H, 31P, and 13C NMR study of phenylphosphonic dichloride in liquid-crystal solution

## Abstract The ^13^C and ^31^P NMR spectra of the triply ^13^C labelled tribenzoylphosphine [] oriented in a nematic phase have been recorded. From the spectral analysis one obtains the average CPC valence bond angle value (95.9°± 0.2), and the phosphorus chemical shift anisotropy Δσ(σ~∥︁~ – σ ~⊥~

The 13 C, 31 P and 1 H NMR spectra of a series of dioxaphosphinopyridines and pyridoazaphosphinines were studied. The interpretation of the chemical shifts of these compounds was based on model compounds and on selective irradiation and two-dimensional shift correlated NMR techniques.

## Abstract Intracellular pH levels of infarcted brain determined by phosphorus‐31 nuclear magnetic resonance (NMR) spectroscopy disclosed a notable phenomenon. The acidotic brain pH seen in the acute stage of infarction was observed to rebound into the alkalotic range in the subacute phase before

## Abstract The ^1^H and ^13^C NMR spectra of methylenecyclopropane, both in the isotropic phase and in the Merck IV nematic phase, were analysed. The relative signs of the ^13^CH scalar coupling constants were determined. The complete geometry deduced from this study was compared with that from a

## Abstract The liquid‐state stereochemistry of cationic [Rh(I)dienebisphosphine]^+^ and neutral [Rh(I)dienebisphosphineCl] complexes is reported on the basis of their ^1^H, ^13^C and ^31^P NMR spectra. In solution the 400‐MHz ^1^H spectra indicate __C__~2~ symmetry for the cationic species an