Abstract
Abstract The semiempirical quantum chemical methods MNDO, AM1 and PM3 were used to investigate the performance of the single excited configuration interaction (SCI) approximation for calculating low energy excitation energies of open-shell systems. Systematic calculations were done for eight radicals formed by reactions of H , OH and e−aq with various acrylates and N-isopropylacrylamide. The calculated electronic spectra show a reasonable correlation with experimental data for both neutral radicals and radical ions. The AM1 as well as the PM3 formalism can be successfully applied to calculate the low energy excited states of these types of open shell systems. The best correlation between experimental and calculated excitation energies was obtained using the PM3 method (correlation coefficient 0.96, overall average error 0.16 eV).
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