UNIVERSALITY AMONG TOPOLOGICAL PROPERTIES OF ELECTRON-DENSITY ASSOCIATED WITH THE HYDROGEN HYDROGEN NONBONDING INTERACTIONS

Nonbonding repulsive interactions between hydrogen atoms, separated by less than ca. 2.18 angstrom and connected to two carbon atoms in the 1,4-positions, are associated with additional pairs of bond and ring critical points in the electron density, rho(r), and the corresponding attractor interaction lines. Such topological features of rho(r) are present in some planar benzenoid hydrocarbons, including chrysene, benzanthracene, and phenanthrene. They also appear in conformations of the biphenyl molecule with the torsional angles between the benzene rings lying within the range of 0-degrees-27-degrees. Properties such as the bond point - ring point distance, the difference in rho(r) at the bond point and the ring point, and the bond ellipticity are found to follow universal functional dependencies with the hydrogen-hydrogen distance as the controlling variable. The same is true about the corresponding difference in the second derivatives of rho(r) in the direction of the vector connecting the bond and ring points.