Physical and chemical transformations of μ-oxo dimers and alkoxy complexes of Fe-octaethylporphyrins in solids and in solutions

Abstract

It has been found that relatively small changes in conditions of crystallization in the synthesis process of μ-oxo dimers can lead to quite different products with dimeric or monomeric structures. Molecular structures of these products, discussed on the basis of Fe-octaethylporphyrin (FeOEP) complexes, have been studied using IR, NMR, EPR, resonance Raman (RR), mass and Mössbauer spectroscopies. The use of chloroform with admixture of alcohols (methanol, deuteromethanol and ethanol) in place of pure chloroform for crystallization of the eluate obtained during synthesis of μ-oxo dimers leads to the formation of alkoxy complexes instead of the μ-oxo dimers. It has been also established that dissolution of the μ-oxo dimers in chloroform-ethanol or chloroform-methanol mixtures leads to conversion of the μ-oxo dimers into the alkoxy complexes after evaporation of the solvents. Methoxy and ethoxy ligands in Fe(OEP)OCH 3 and Fe(OEP)OC 2H 5 complexes can exchange the positions during addition of ethanol to the former and methanol to the latter complex in solution. The possibility of generation of doubly bridged structures of the type: OEP Fe< R R Fe OEP where R is OCH 3 or OC 2H 5 is discussed.