NMR-STUDY OF THE STOICHIOMETRY, STABILITY AND EXCHANGE KINETICS OF COMPLEXATION REACTION BETWEEN PB2+ ION AND 18-CROWN-6 IN BINARY ACETONITRILE-WATER MIXTURES

Proton NMR was used to study the complexation reaction between lead ion and 18-crown-6 in a number of binary acetonitrile-water mixtures. Formation constant for the resulting 1:1 complexes in different solvent mixtures was determined by computer fitting of the chemical shift-mole ratio data. There is an inverse relationship between the complex stability and amount of water in the mixed solvent. The dissociative kinetics of the complex was studied by proton line-shape analysis. The Arrhenius plots showed a distinct isokinetic temperature at about 25-degrees-C at which the decomplexation rate is more or less independent of the solvent composition. The complexation rate and the activation parameters E(a), DELTAH(double-dagger) and dELTAS(double-dagger), for the exchange have been determined and found to be strongly solvent dependent. There is actually a linear relationship between the mole fraction of acetonitrile in the mixed solvent and logarithm of the stability constant as well as the activation parameters.