Under CH2Cl/2H2O two-phase conditions alkene epoxidations, catalysed by Mn(III)-porphyrins and promoted by aqueous NaOCl adjusted at pH 10.0 with NaHCO3, proceed in the absence of a phase-transfer catalyst and, for electron-rich olefins, also in the absence of axial ligands. Under these conditions, reliable kinetic measurements on cyclooctene epoxidation can be obtained by using the chemically robust Mn(III)-tetra(2,6-dichlorophenyl)por-phyrin chloride, as the side reactions associated with the oxidative demoliton of the axial ligand and of the quaternary onium salts do not occur. The results indicate that reactions follow Michaelis-Menten saturation kinetics which are confirmed by the oxidation rates of different substrates in competitive epoxidations. The absence of strong axial ligands, like pyridine or imidazole bases, highlights the autocatalytic behaviour of the reactions, probably because the produced epoxides act as weak axial ligands. Indeed, reactions are noticeably accelerated by initial addition of consistent amounts of epoxides. Under the conditions reported here electron-rich olefins can be oxidised on a large scale, the overall catalyst turnovers being in the range 30,000-100,000 in 20-24 h at 20-degrees-C.

• 出版日期1993-8