Dynamic NMR studies of ring rotation in substituted ferrocenes and ruthenocenes

## Abstract Proton noise decoupled ^13^C NMR spectra of lithium 1,1,3,3‐bis (2,2′‐biphenylylene)propenide and lithium 1,1,3,3‐tetraphenylpropenide have been studied, and complete assignments have been made based on several methods, e.g. ^13^C^13^C coupling constants of selectively labelled compoun

Rotational isomerism of l,l'-(1,8-naphthylene)bis(lH-1,2,3-triazoles) was studied by dynamic NMR spectroscopy. Rotation around the C-N bond between triazole and the naphthalene rings in such compounds is restricted owing to the repulsion of the two triazole rings. The rotational barrier around the C

## Abstract Free energies of activation, Δ__G__, for the rotation of the phenyl group in the range of 46.06–63.25 kJ mol^−1^ were observed in some model β‐hydroxyphosphonates. These barriers were found to depend on the type of substituents at the phosphorus atom and on the substituents at the β‐pos

## Abstract A dynamic study of spirocyclohexanes was carried out using low‐temperature ^13^C nuclear magnetic resonance spectroscopy. The variations of the energy barrier to inversion of the cyclohexane ring are interpreted in terms of the electronegativity of the heteroatoms of the spiro substitue