Abstract
Density functional theory (DFT) electronic structure calculations were carried out to predict the structures, energetics, and triplet−triplet (T−T) spectra for the low-lying triplet states of free-base porphin (PH2) and its β-octahalogenated derivatives (β-PH2X8; X = F, Cl, Br). The lowest triplet excited state of PH2 and β-PH2X8 was found to retain D2h symmetry with stretched Cβ−Cβ and Cβ−Cm bond distances. For free-base porphin, the singlet−triplet (S0−T1) gap obtained with the B3LYP functional was in excellent agreement with the experimental phosphorescence value. Excitation energies computed by time-dependent DFT also provided a fine account of the observed T−T spectrum. β-Halogenation had little effect on the singlet−triplet gaps of porphin. The S0−T1 and S0−T2 splittings for β-PH2X8 were within 0.1 eV of the corresponding splittings in the unsubstituted porphin. All bands in the T−T spectra of β-PH2X8 were predicted to be significantly (up to 0.65 eV) red-shifted in comparison to corresponding bands...
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