Oxidation of alkanes and alkenes by iodosylbenzene and hydrogen peroxide catalysed by halogenated manganese porphyrins in homogeneous solution and covalently bound to silica
Fg. Doro et al., Oxidation of alkanes and alkenes by iodosylbenzene and hydrogen peroxide catalysed by halogenated manganese porphyrins in homogeneous solution and covalently bound to silica, J MOL CAT A, 164(1-2), 2000, pp. 97-108
Manganese(III) 5-(pentafluorophenyl)- 10,15,20-tri(2,6-dichlorophenyl)porph
yrin, Mn(PFTDCPP), and manganese(II) 2,3, 7,8,12,13,17,18-octachloro-5-(pen
taffuoro Mn(PFTDCCldeltaPP), have been synthesised and used as catalysts in
hydrocarbon oxidations by iodosylbenzene and hydrogen peroxide both in sol
ution and covalently bound to aminopropylated silica. The former shows high
er efficiency in the epoxidation of alkenes by iodosylbenzene, whereas the
perchlorinated manganese porphyrin is more efficient in the hydroxylation o
f alkanes by this oxidant. The supported manganese(III) porphyrin show the
same activity as its homogeneous analogue. With hydrogen peroxide as oxygen
donor, Mn(PFTDCPP) is a stable and effective catalyst in the presence of i
midazole. The perchlorinated analogue is a poor catalyst with this oxidant.
The eight additional chlorine atoms on the porphyrin ring stabilise Mn(II)
and unfavour the formation of the active species, Mn-V=O. (C) 2000 Elsevie
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