Topological analysis of aromatic halogen/hydrogen bonds by electron charge density and electrostatic potentials

DUARTE, D. J. R.; VALLEJOS, M.; PERUCHENA, N. M.

JOURNAL OF MOLECULAR MODELING - (Online)

SPRINGER

Lugar: Springer-Verlag GmbH, Heidelberg, ; Año: 2010 p. 737 - 748

0948-5023

In this work, the intermolecular distribution of the electronic charge density in the aromatic hydrogen/halogen bonds is studied within the framework of the atoms in molecules (AIM) theory and the molecular electrostatic potentials (MEP) analysis. The study is carried out in nine complexes formed between benzene and simple lineal molecules, where hydrogen, fluorine and chlorine atoms act as bridge atoms. All the results are obtained at MP2 level theory using cc–pVTZ basis set. Attention is focused on topological features observed at the intermolecular region such as bond, ring and cage critical points of the electron density, as well as the bond path, the gradient of the density maps, molecular graphs and interatomic surfaces. The strength of the interaction increases in the following order: F×××p < Cl×××p < H×××p. Our results show that the fluorine atom has the capability to interact with the p-cloud to form an aromatic halogen bond, as long as the donor group is highly electron withdrawing. The Laplacian topology allows us to state that the halogen atoms can act as nucleophiles as well as electrophiles, showing clearly their dual character.