Solid-state NMR study of Schiff base derivatives of 2-hydroxynaphthaldehyde. Deuterium isotope effects on 15N chemical shifts in the solid state

## Abstract The proton transfer equilibrium in a series of double Schiff base derivatives of __trans__‐1,2‐diaminocyclohexane in solution and the solid state was studied by means of ^15^N NMR spectroscopy and analysis of the deuterium isotope effect on the chemical shifts Δ^15^N(D). The presence of

## Abstract The deuterium isotope effect on the ^13^C NMR chemical shifts of some α‐2‐hydroxyaryl‐__N__‐phenylnitrones (Schiff base __N__‐oxides) was studied. The existence of an intramolecular hydrogen bond with the proton localized on the phenolic oxygen atom was evidenced. Exceptionally large is

The proton transfer equilibrium in series of Schi † bases derived from 5-nitrosalicylaldehyde and aliphatic amines was investigated by means of variable-temperature NMR spectra and the deuterium isotope e †ect on 13C NMR chemical shifts.

## Abstract The ^15^N chemical shifts of thirteen NH‐pyrazoles in the solid state and of seven NH‐pyrazoles in [^2^H~8~] THF solution at 170–175 K (with frozen annular tautomerism) are reported. The solid‐state values are discussed using an additive model. The differences in chemical shifts between

## Abstract Optically active Schiff bases, derivatives of **__ortho__**‐hydroxyaldehydes and their adducts with dirhodium tetracarboxylate complexes have been studied by ^15^N NMR spectroscopy. The position of the equilibrium of Schiff bases, as well as their adducts, has been established on the ba