Mechanisms of nucleophilic reactions of carbonyl compounds in the gas phase and in a solution

Abstract

The effect of substituents on nucleophilic addition at the C=O bond, which occurs by the mechanism of intramolecular proton transfer, has been studied by the quantum-chemical MNDO/H method. The effect of nucleophiles and substituents at the carbonyl C atom in the gas phase is opposite to that in solution. Strengthening of the bond between the nucleophile and the carbonyl compound as the result of the transfer of electron density to the carbonyl C atom results in the stabilization of the tetrahedral bipolar adduct. In the formation of an adduct with a strong nucleophile the geometry of the transition state (TS) is closer to that of the reaction product, whereas in the case of a weak nucleophile it is similar to that of the initial reagents. Attack by a weak nucleophile and electron-donating groups at the carbonyl C atom favor the situation in which the reaction system achieves a TS earlier and proton transfer occurs with a low activation barrier.