Catalytic asymmetric anhydrous epoxidation

Catalysts based on a binaphthalene structure 2.6. Catalytic asymmetric anhydrous epoxidation mediated by tetraphenyIphosphonium monoperoxysulphate and 196... 

Catalytic asymmetric epaxidation (13, 51-53). Complete experimental details are available for this reaction, carried out in the presence of heat-activated crushed 3A or powdered 4A molecular sieves. A further improvement, both in the rate and enantioselectivity, is use of anhydrous oxidant in isoctane rather than in CH2C12. The titanium-tartrate catalyst is not stable at 25°, and should be prepared prior to use at -20°. Either the oxidant or the substrate is then added and the mixture of three components should be allowed to stand at this temperature for 20-30 min. before addition of the fourth component. This aging period is essential for high enantioselectivity. Epoxidations with 5-10 mole % of Ti(0-/-Pr)4 and 6-12% of the tartrate generally proceed in high conversion and high enantioselectivity (90-95% ee). Some increase in the amount of catalyst can increase the enantioselectivity by 1-5%, but can complicate workup and lower the yield. Increase of Ti(0-i-Pr)4 to 50-100 mole % can even lower the enantioselectivity. 

Among the reactions catalyzed by titanium complexes, the asymmetric epoxidation of allylic alcohols developed by Sharpless and coworkers [752, 807-810] has found numerous synthetic applications. Epoxidation of allylic alcohols 3.16 by ferf-BuOOH under anhydrous conditions takes place with an excellent enantioselectivity (ee > 95%) when promoted by titanium complexes generated in situ from Ti(0/ -Pr)4 and a slight excess of diethyl or diisopropyl (R,R)- or (iS, 5)-tartrates 2.69. The chiral complex formed in this way can be used in stoichiometric or in catalytic amounts. For catalytic use, molecular sieves must be added. Because both (RJ )- and (5,5)-tartrates are available, it is posable to obtain either enantiomeric epoxide from a single allylic alcohol. Cumene hydroperoxide (PhCMe20OH) can also be used in place of ferf-BuOOH. This method has been applied to industrial synthesis of enantiomeric glycidols [811, 812]. 

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