Kinetics and Mechanism of Axial Ligand Substitution of Alkyl Cobaloximes by Substituted Pyridines in Different Solvents

## Abstract **The cover picture shows** the dissociative character of the displacement of a coordinated solvent molecule __trans__ to the alkyl group in cobalt(III) complexes. Details are discussed in the article by R. van Eldik et al. on p. 653 ff. The work has benefited greatly from an internatio

The complex [Fe(imox) (Nmim)~], where imox is a planar bis(iminooxime) macrocyclic ligand and Nmim = N-methyl imidazole, undergoes substitution reactions in the presence of 2,2'bipyridine (bipy), leading to a series of intermediate mixed complexes. The forward and reverse rate constants for the subs

## Abstract The solution polymerization of 4‐bromomethylpyridine (**M1**) and 3‐bromomethyl pyridine hydrobromides (**M2**) was studied by NMR spectroscopy. A mechanism involving a series of bimolecular reactions of the monomer, dimer, and higher oligomers closely fits with the experimental variati

## Abstract The kinetics of the reaction have been studied in toluene solution. The reaction occurs by a dissociative mechanism and the observation of an appreciable mass law retardation effect shows that Fe(CO)~4~ is produced as an intermediate. Analysis of the effect of the substituent X on t

## Abstract The kinetics and mechanism of substitution reaction of [Ru(CN)~5~H~2~O]^3−^ anion with two naphthalene‐substituted ligands viz. L^n^ = nitroso‐R‐salt (NRS) and α‐nitroso‐β‐naphthol (αNβN) have been studied spectrophotometrically by monitoring an increase in absorbance at λ~max~ = 525 nm