367254-64-6Relevant academic research and scientific papers
Electrochemistry, spectroelectrochemistry, chloride binding, and O 2 catalytic reactions of free-base porphyrin - Cobalt corrole dyads
Kadish, Karl M.,Shao, Jianguo,Ou, Zhongping,Fremond, Laurent,Zhan, Riqiang,Burdet, Fabien,Barbe, Jean-Michel,Gros, Claude P.,Guilard, Roger
, p. 6744 - 6754 (2008/10/09)
Three face-to-face linked porphyrin-corrole dyads were investigated as to their electrochemistry, spectroelectrochemistry, and chloride-binding properties in dichloromethane or benzonitrile. The same three compounds were also investigated as to their ability to catalyze the electroreduction of dioxygen in aqueous 1 M HClO4 or HCl when adsorbed on a graphite electrode. The characterized compounds are represented as (PCY)H2Co, where P = a porphyrin dianion; C = a corrole trianion; and Y = a biphenylenyl, 9,9-dimethylxanthenyl, or anthracenyl spacer, which links the two macrocycles in a face-to-face arrangement. An axial binding of one or two Cl- ligands to the cobalt center of the corrole is observed for singly and doubly oxidized (PCY)H2Co, with the exact stoichiometry of the reaction depending upon the spacer size and the concentration of Cl- added to solution. No Cl- binding occurs for the neutral or reduced forms of the dyad, which contrasts with what is seen for the monocorrole, (Me 4-Ph5COr)Co, where a single Cl- ligand is added to the Co(III) corrole in PhCN. The Co(III) form of the corrole in (PCY)H 2Co also appears to be the catalytically active species in the electroreduction of dioxygen, which occurs at potentials associated with the Co(IV)/Co(III) reaction, that is, 0.35 V in 1 M HClO4 as compared to 0.31-0.42 V for the same three dyads in PhCN and 0.1 M TBAP. The potential for the catalytic electroreduction of O2 in HCl shifts negatively by 60 to 70 mV as compared to E1/2 values in 1 M HClO4, consistent with the binding of Cl- to the Co(IV) form of the corrole and its rapid dissociation after electroreduction to Co(III) at the electrode surface.
Alkyl and aryl substituted corroles. 1. Synthesis and characterization of free base and cobalt containing derivatives. X-ray structure of (Me4Ph5Cor)Co(py)2
Guilard,Gros,Bolze,Jerome,Ou,Shao,Fischer,Weiss,Kadish
, p. 4845 - 4855 (2008/10/08)
The synthesis, spectroscopic properties, and electrochemistry of six different alkyl- and aryl-substituted Co(III) corroles are presented. The investigated compounds contain methyl, ethyl, phenyl, or substituted phenyl groups at the eight β-positions of the corrole macrocycle and four derivatives also contain a phenyl group at the 10-meso position of the macrocycle. Each cobalt corrole undergoes four reversible oxidations in CH2Cl2 containing 0.1 M tetra-n-butylammonium perchlorate and exists as a dimer in its singly and doubly oxidized forms. The difference in potential between the first two oxidations is associated with the degree of interaction between the two corrole units of the dimer and ranges from an upper value of 0.62 V, in the case of (Me6Et2Cor)Co, to a lower value of about 0.17 V, in the case of four compounds which have a phenyl group located at the 10-meso position of the macrocycle. These Co(III) corroles strongly coordinate two pyridine molecules or one carbon monoxide molecule in CH2Cl2 media, and ligand binding constants were evaluated using spectroscopic and electrochemical methods. The structure of (Me4Ph5Cor)Co(py)2 was also determined by X-ray diffraction. Crystal data: (Me4Ph5Cor)Co(py)2 ·3CH2Cl2·H2O, orthorhombic, a = 19.5690(4) A, b = 17.1070(6) A, c = 15.9160(6) A, V = 5328.2(5) A3, space group Pna21, Z = 2, 35 460 observations, R(F) = 0.069.
