Inverse Hypercorroles

29 January 2024, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

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.

Keywords

hyper spectra
hyperporphyrin
hypercorrole
inverse hypercorrole
TDDFT

Supplementary materials

Title
Description
Actions
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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