Sang-Kun Yoo scite author profile

The systematic oxidation reactions of a wide range of alcohols have been carried out by using an iron porphyrin complex in order to understand their relation to cytochrome P-450 enzymes and to have a practical application to organic synthesis. The iron porphyrin complex catalyzed efficiently alcohol oxidation to the respective carbonyl compound via a high-valent iron-oxo porphyrin intermediate ((Porp)Fe=O+). Several mechanistic studies such as isotope 18O labeling, deuterium isotope effect, linear free energy relationship, and ring-opening of radical clock substrate, have suggested that the alcohol is oxidized by a sequence of reactions involving an alpha-hydroxyalkyl radical intermediate and oxygen rebound to form the gem-diol, dehydration of which yields the carbonyl compounds. Moreover, it has been proposed that a two-state reactivity mechanism can also be adopted for alcohol oxidation reactions in iron porphyrin model systems as exhibited by P-450 enzymes.

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Novel mononuclear Fe(III) mono(terpyridine) complexes having labile solvent ligands: A comparison of homegeneous vs. heterogeneous catalytic activity

Lee¹,

Kim²,

Yoo³

et al. 2003

Journal of Inorganic Biochemistry

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Sang-Kun Yoo

A novel mononuclear Fe(iii) mono(terpyridine) complex having labile solvent ligands and its catalytic activityElectronic supplementary information (ESI) available: experimental details. See http://www.rsc.org/suppdata/dt/b2/b208413a/

Biomimetic alcohol oxidations by an iron(iii) porphyrin complex: relevance to cytochrome P-450 catalytic oxidation and involvement of the two-state radical rebound mechanism

Novel mononuclear Fe(III) mono(terpyridine) complexes having labile solvent ligands: A comparison of homegeneous vs. heterogeneous catalytic activity

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