Abstract
Semiempirical LCAO–SCF–MO calculations have been carried out on some aromatic nitriles in an attempt to predict spectral transitions. Mataga's approximation has been applied to the Coulomb repulsion integrals and a set of parameter values which gives a reasonable prediction of the observed singlet–singlet transition energies of pyridine and benzonitrile was used. The calculations were applied to pyridine, benzonitrile, 2-, 3-, and 4-cyanopyridine, 1,2-, 1,3-, and 1,4-dicyanobenzene, 2,6-dicyanopyridine, and 1,2,4,5-tetra cyanobenzene. Computed singlet–singlet transition energies are in fair agreement with experiment. However, calculated singlet–triplet transition energies are, in general, lower than the experimental values by about 1 eV. The SCF ground state MO's and orbital energies are reported together with the wave functions for the four lowest-energy excited singlet states for each molecule.
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