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Vinylepoxides in Organic Synthesis

Vinylepoxides can be obtained by various strategies, all with their inherent limitations. Racemic epoxidation of olefins is a straightforward route to epoxides, as pure trans- or cis-epoxides can be obtained from ( )- or (Z)-alkenes, respectively. Various oxidants - such as mCPBA and other peracids, H2O2, or VO(acac)2/TBHP - can all be employed in this transformation [1], [Pg.315]

Epoxidation of conjugated dienes can be regioselective when one double bond is more electron-rich than the other otherwise mixtures of mono- and diepoxides will be obtained. When the alkene contains an adjacent stereocenter, the epoxidation can be diastereoselective [2]. Hydroxy groups can function as directing groups, causing the epoxidation to take place syn to the alcohol [2, 3]. [Pg.315]

Asymmetric epoxidations of alkenes have been intensively studied since Sharpless initial report on asymmetric epoxidation of allylic alcohols in 1980. This reaction, discussed in Section 9.1.3, has become one of the most widely employed reactions in asymmetric synthesis, due to its reliability and high enantioselectivity [2], [Pg.315]

Enantioselective epoxidation of unfunctionalized alkenes was until recently limited to certain ds-alkenes, but most types of alkenes can now be successfully epoxi-dized with sugar-derived dioxiranes (see Section 9.1.1.1) [2]. Selective monoepox-idation of dienes has thus become a fast route to vinylepoxides. Functionalized dienes, such as dienones, can be epoxidized with excellent enantioselectivities (see Section 9.1.2). [Pg.315]

Alternatively, epoxides can be formed with concomitant formation of a C-C bond. Reactions between aldehydes and various carbon nucleophiles are an efficient route to epoxides, although the cis. trans selectivity can be problematic (see Section 9.1.4). Kinetic resolution (see Section 9.1.5.2) or dihydroxylation with sequential ring-closure to epoxides (see Section 9.1.1.3) can be employed when asymmetric epoxidation methods are unsatisfactory. [Pg.315]

The developments highlighted in this chapter show that vinylepoxides are readily available starting materials. Several techniques for their regio- and stereoselective synthesis and derivatization exist, and it is consequently to be expected that the use of vinylepoxides as substrates in organic synthesis will increase. [Pg.343]

See other pages where Vinylepoxides in Organic Synthesis is mentioned: [Pg.315]    [Pg.316]    [Pg.318]    [Pg.320]    [Pg.322]    [Pg.324]    [Pg.326]    [Pg.328]    [Pg.330]    [Pg.332]    [Pg.334]    [Pg.336]    [Pg.338]    [Pg.340]    [Pg.342]    [Pg.53]    [Pg.315]    [Pg.316]    [Pg.318]    [Pg.320]    [Pg.322]    [Pg.324]    [Pg.326]    [Pg.328]    [Pg.330]    [Pg.332]    [Pg.334]    [Pg.336]    [Pg.338]    [Pg.340]    [Pg.342]    [Pg.53]   


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In organic synthesis

Vinylepoxides

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