86992-72-5Relevant academic research and scientific papers
Aliphatic Hydroxylation Catalyzed by Iron Porphyrin Complexes
Groves, John T.,Nemo, Thomas E.
, p. 6243 - 6248 (1983)
The hydroxylation of unactivated alkanes has been observed in a catalytic system containing iodosylbenzene and various iron porphyrins.The yields and distributions of products have been found to be sensitive to the peripheral substitution pattern of the porphyrin.The oxidation of cyclohexane with chloro(5,10,15,20-tetra-o-tolylporphyrinato)iron(III) gave a 31percent yield of cyclohexanol and 6percent cyclohexanone based on iodosylbenzene.Two samples of Fe(TTP)ClCl with differing atropisomeric composition gave different product ratios.The hydroxylation of cycloheptane under these conditions and in the presence of bromotrichloromethane gave 24percent cycloheptanol and 18percent bromocycloheptane.Steric selectivity was observed by comparing the hydroxylation of cis-decalin with Fe(TPP)Cl, Fe(TTP)Cl, Fe(TNP)Cl, and Fe(TMP)Cl.The hydrogen-isotope effect for cyclohexane hydroxylation by Fe(TTP)Cl was found to be 12.9+/- 1.A mechanism for hydroxylation is proposed on the basis of these results that involves initial oxidation of the iron porphyrin, hydrogen atom abstraction from the alkane, and rapid collapse of this radical to give the product alcohol and to regenerate the iron(III) catalyst.
