Density functional study of nitrogen oxides

Abstract

Equilibrium geometries, bond dissociation energies, dipole moments, harmonic vibrational frequencies, and infrared intensities were calculated for a set of ten neutral nitrogen oxides (NO, NO₂, NO₃, N₂O, sym N₂O₂, asym N₂O₃, sym N₂O₃, sym N₂O₄, asym N₂O₄, and N₂O₅) by applying one local and two gradient‐corrected nonlocal functionals in a Gaussian‐type‐orbital density functional method. Comparison with available experimental data shows that, except for the bond dissociation energies, the local functional gives very accurate molecular properties. Nonlocal functionals considerably improve the bond dissociation energies, but the results still overestimate the experimental values by about 10 kcal/mol on average. For the other properties, the results obtained with nonlocal functionals are not necessarily superior to those calculated with the local functional. The properties of two molecules (sym N₂O₃ and asym N₂O₄) are predicted for the first time and several reassignments are proposed in the vibrational spectra of di‐nitrogen oxides.