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Abstract
Ground-state and time-dependent density functional theory (TDDFT) calculations with the long-range-corrected, Coulomb-attenuating CAMY-B3LYP exchange-correlation functional and large, all-electron STO-TZ2P basis sets have been used to examine the potential “inverse hypercorrole” character of meso-p-nitrophenyl-appended dicyanidocobalt(III) corrole dianions. The effect is most dramatic for 5,15-bis(p-nitrophenyl) derivatives, where it manifests itself in intense NIR absorptions. The 10-aryl groups in these complexes play a minor modulatory role. TDDFT (CAMY-B3LYP) calculations ascribe these features clearly to a transition from the corrole’s a2u- like HOMO (retaining the D4h irrep used for metalloporphyrins) to a nitrophenyl-based LUMO. The outward nature of this transition contrasts with the usual phenyl-to-macrocycle direction of charge transfer transitions in many hyperporphyrins and hypercorroles. The complexes studied, therefore, are aptly described as inverse hypercorroles.
Supplementary materials
Title
Inverse Hypercorroles
Description
MALDI/TOF LRMS, ESI HRMS spectra and 1H NMR spectra of cobalt complexes S1-S6. Optimized coordinates of the DFT calculations.
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