Polarization and Charge-Transfer Effects in Lewis Acid-Base Complexes

An interaction energy decomposition method has been used to investigate bonding interactions in a series of Lewis acid−base complexes. It was found that the bonding interaction of these donor−acceptor complexes can be divided into two main groups. The first involves weakly interacting complexes, which have characteristic interaction energies of 3−9 kcal/mol and monomer separations of 2.5−3.1 A. The second group consists of strongly bonding complexes, which have bonding energies of greater than 20 kcal/mol with short interaction distances (1.6−2.0 A) between the donor and acceptor molecule. The bonding interactions of group I complexes are primarily electrostatic in nature, whereas charge polarization and charge transfer between the two interacting monomers dominate the interaction in group II complexes. A good linear relationship is observed between the charge-transfer energy and the amount of charge-transfer from the donor to the acceptor species. Interestingly, the total bonding energy also correlates l...