Old Dog, New Tricks: Innocent, Five-coordinate Cyanocobalt Corroles

Three mono-CN ligated anionic cobalt A -triarylcorroles were synthesized and investigated as to their spectroscopic and electrochemical properties in CH Cl , pyridine (Py), and dimethyl sulfoxide (DMSO). The newly synthesized corroles provide the first examples of air-stable cobalt corroles with an...

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Published in:Inorganic chemistry 2020-06, Vol.59 (12), p.8562-8579
Main Authors: Osterloh, W Ryan, Desbois, Nicolas, Quesneau, Valentin, Brandès, Stéphane, Fleurat-Lessard, Paul, Fang, Yuanyuan, Blondeau-Patissier, Virginie, Paolesse, Roberto, Gros, Claude P, Kadish, Karl M
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Language:English
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Engineering Sciences
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Summary:Three mono-CN ligated anionic cobalt A -triarylcorroles were synthesized and investigated as to their spectroscopic and electrochemical properties in CH Cl , pyridine (Py), and dimethyl sulfoxide (DMSO). The newly synthesized corroles provide the first examples of air-stable cobalt corroles with an anionic axial ligand and are represented as [(Ar) CorCo (CN)] TBA , where Cor is the trivalent corrole macrocycle, Ar is -(CN)Ph, -(CF )Ph, or -(OMe)Ph, and TBA is the tetra- -butylammonium (TBA) cation. Multiple redox reactions are observed for each mono-CN derivative with a key feature being a more facile first oxidation and a more difficult first reduction in all three solvents as compared to all previously examined corroles with similar and β-pyrrole substituents. Formation constants (log ) for conversion of the five-coordinate mono-CN complex to its six-coordinate bis-CN form ranged from 10 for Ar = -(OMe)Ph to 10 for Ar = -(CN)Ph in DMSO as determined by spectroscopic methodologies. The in situ generated bis-CN complexes, represented as [(Ar) CorCo (CN) ] (TBA ) , and the mixed ligand complexes, represented as [(Ar) CorCo (CN)(Py)] TBA , were also investigated as to their electrochemical and spectroscopic properties. UV-visible spectra and electrode reactions of the synthesized mono-CN derivatives are compared with the neutral mono-DMSO cobalt corrole complexes and the in situ generated bis-CN and bis-Py complexes, and the noninnocent (or innocent) nature of each cobalt corrole system is addressed. The data demonstrate the ability of the CN axial ligand(s) to stabilize the high-valent forms of the metallocorrole, leading to systems with innocent macrocyclic ligands. Although a number of six-coordinate cobalt(III) corroles with N-donor ligands were characterized in the solid state, a dissociation of one axial ligand readily occurs in nonaqueous solvents, and this behavior contrasts with the high stability of the currently studied bis-CN adducts in CH Cl , pyridine, or DMSO. Linear free energy relationships were elucidated between the -phenyl Hammett substituent constants (Σσ) and the measured binding constants, the redox potentials, and the energy of the band positions in the mono-CN and bis-CN complexes in their neutral or singly oxidized forms, revealing highly predictable trends in the physicochemical properties of the anionic corroles.
ISSN:0020-1669
1520-510X
DOI:10.1021/acs.inorgchem.0c01037