Additivity of electron correlation energy and the ab initio MO calculation of (0–0) S1←S0 transition energies: polychlorinated dibenzofurans

The energies of the S₀ and S₁ states of polychlorinated dibenzofurans (PCDFs) were calculated using the Hartree–Fock (HF) and configuration interaction-singles (CIS) methods. We can obtain the (0–0) transition energies of PCDFs with good accuracy if the energies calculated using the HF and CIS methods are adjusted to take the electron correlation energy into account. The correlation energy of the S₀ state was calculated using the Møller–Plesset correlation correction truncated at the second order (MP2), and that of the S₁ state was determined using experimental data. The correlation energies for both S₀ and S₁ states were expressed as the sum of the contributions arising from dibenzofuran (DF) and substituted chlorine atoms. The energy of the ground state calculated using the additivity approximation was in good agreement with the energy given directly by the MP2 method. The (0–0) S₁←S₀ transition energies corrected for electron correlation energy agreed well with the available experimental data. The approach proposed in this paper may be useful for the estimation of the electronic transition energy for large aromatic molecules.