Sharpless-Katsuki protocol

Diaminocyclohexane [(R,R)- and ( S, S)-enantiomer] forms an imine (SCHIFF base) with 2,5-di-/ rr-butylsalicylaldehyde, which gives a chiral Mn(III) (salen) complex with Mn(II)acetate and oxygen. In contrast to the Sharpless-Katsuki protocol (p 20), this complex effects the stereoselective oxygen transfer (from oxidants, e.g. monopersulfate or NMO) to unfunctionalized alkenes (Jacobsen epoxidation [1], extended by Katsuki [2]) giving rise to enantiomeric oxiranes with 90-98% ee. 

The Sharpless-Katsuki asymmetric epoxidation reaction (most commonly referred by the discovering scientists as the AE reaction) is an efficient and highly selective method for the preparation of a wide variety of chiral epoxy alcohols. The AE reaction is comprised of four key components the substrate allylic alcohol, the titanium isopropoxide precatalyst, the chiral ligand diethyl tartrate, and the terminal oxidant tert-butyl hydroperoxide. The reaction protocol is straightforward and does not require any special handling techniques. The only requirement is that the reacting olefin contains an allylic alcohol. 

The asymmetric dihydroxylation protocol was the second massive contribution by Professor Barry Sharpless to synthetic organic chemistry. The first procedure, introduced with Katsuki, involves the catalytic asymmetric epoxida-tion of allylic alcohols. A typical example is shown in Scheme 17, wherein ( )-allylic alcohol (23) is epoxidized with tert-b utyl hyd roperox ide, in the presence of titanium tetra-isopropoxide and optically active diethyl tartrate to give the... 

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