The self-reduction of chlorohemin in pure pyridine has been investigated by voltammetric techniques. The results obtained indicate that the self-reduction follows a first-order kinetic rate law. The reduction is strongly inhibited by the presence of chloride ions suggesting that the monopyridine protoporphyrin iron(III) [Fe(III)(PP)(py)]+ axial complex is the species undergoing self-reduction. In oxygenated solution the process is strongly retarded since the oxidation of the Fe(II)PP intermediate strongly competes with the formation of a stable Fe(II)(PP)(py)2 complex. The results are discussed in the light of those obtained in a previous investigation on the photochemistry of chlorohemin under similar conditions. © 1983.
Self-reduction of chlorohemin in pyridine: Comparison with the photoreduction process
BARTOCCI, Carlo;MALDOTTI, Andrea;TRAVERSO, Orazio
1983
Abstract
The self-reduction of chlorohemin in pure pyridine has been investigated by voltammetric techniques. The results obtained indicate that the self-reduction follows a first-order kinetic rate law. The reduction is strongly inhibited by the presence of chloride ions suggesting that the monopyridine protoporphyrin iron(III) [Fe(III)(PP)(py)]+ axial complex is the species undergoing self-reduction. In oxygenated solution the process is strongly retarded since the oxidation of the Fe(II)PP intermediate strongly competes with the formation of a stable Fe(II)(PP)(py)2 complex. The results are discussed in the light of those obtained in a previous investigation on the photochemistry of chlorohemin under similar conditions. © 1983.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
