Olefin + asymmetric

There have been several reviews of asymmetric synthesis via chiral organoboranes (6,8,378,382,467—472). Asymmetric induction in the hydroboration reaction may result from the chiraHty present in the olefin (asymmetric substrate), in the reagent (asymmetric hydroboration), or in the catalyst (catalytic asymmetric hydroboration). [Pg.321]

Electron-deficient olefins, asymmetric epoxidation, 386-91 Electron diffraction dialkyl peroxides, 713 ozonides, 721, 723 1,2,4-trioxolanes, 740 see also Gas electron diffraction Electron-donating substituents ene reactions, 841 sulfonyl peroxides, 1005-7 Electronegative functional groups,... [Pg.1458]

Heterogeneous catalysts modified by the addition of chiral substances have been used to hydrogenate olefins asymmetrically, but only a few effective chiral heterogeneous catalyst systems have been found. Palladium deposited on silk fibroin was used to hydrogenate 4-benzylidene-2-methyl-5-oxazolone asymmetrically to give, after hydrolysis, optically active phenylalanine (Fig. lc). The optical purity1 of the product was found to be dependent on the origin of the fibroin and its chemical pretreatment (4-6). [Pg.83]

Ito, Y. N., Katsuki, T. Oxidation of the C C bond metal catalyzed epoxidation of simple olefins. Asymmetric Oxidation Reactions 2001,19-37. [Pg.607]

Jacobsen reported in 1990 that Mnm complexes of chiral salen ligands (41) were the most efficient catalysts available for the enantioselective epoxidation of alkyl- and aryl-substituted olefins.118 This stimulated a rapid development in the chemistry and applications of chiral SB complexes, which offer promising catalytic applications to several organic reactions, such as enantioselective cyclopropanation of styrenes, asymmetric aziridination of olefins, asymmetric Diels-Alder cycloaddition, and enantioselective ring opening of epoxides.4,119... [Pg.426]

The stereoselectivity of the addition is influenced by the chirality present in the olefin (asymmetric substrate),... [Pg.1097]

In the case of terminal olefins, asymmetric epoxidation typically results in relatively low enantiomeric excess. For (salen)Mn(III) catalysis, it is not clear whether the low degree of asymmetric induction is due to poor enantiofacial selectivity during... [Pg.46]

Asymmetric reactions that can exhibit this type of behavior include atom and group transfer reactions, such as the asymmetric oxidation of sulfides, some asymmetric epoxidations of olefins, " asymmetric aziridination of olefins, - and as)rmmetric cyclo-propanation of olefins. In the asymmetric oxidation of sulfides, a non-racemic, cliiral, low-valent metal complex is oxidized, in this case by iodosobenzene, to generate a highly reactive 0x0 intermediate. The 0x0 is then transferred directly to the sulfur to form the sulfoxide in the enantioselectivity-determining step. A representative example is illustrated in Equation 14.12 that involves a chiral salen-based catalyst. ... [Pg.554]

Proton-catalyzed olefin cyclizations of open-chain educts may give tri- or tetracyclic products but low yields are typical (E.E. van Tamelen, 1968, 1977 see p. 91). More useful are cyclizations of monocyclic educts with appropriate side-chains. The chiral centre to which the chain is attached may direct the steric course of the cyclization, and several asymmetric centres may be formed stereoselectively since the cyclizations usually lead to traas-fused rings. [Pg.279]

EinaHy, kinetic resolution of racemic olefins and aHenes can be achieved by hydroboration. The reaction of an olefin or aHene racemate with a deficient amount of an asymmetric hydroborating agent results in the preferential conversion of the more reactive enantiomer into the organoborane. The remaining unreacted substrate is enriched in the less reactive enantiomer. Optical purities in the range of 1—65% have been reported (471). [Pg.323]

Catalytic Asymmetric Hydroboration. The hydroboration of olefins with catecholborane (an achiral hydroborating agent) is cataly2ed by cationic rhodium complexes with enantiomericaHy pure phosphines, eg, [Rh(cod)2]BE4BINAP, where cod is 1,5-cyclooctadiene and BINAP is... [Pg.323]

Ru(OCOCH2)2[(3)-BINAP]-(106)-catalyzed reduction of precursor olefin (107). The asymmetric synthesis of analgesic tetrahydroisoquinolines makes use... [Pg.248]

Efficient enantioselective asymmetric hydrogenation of prochiral ketones and olefins has been accompHshed under mild reaction conditions at low (0.01— 0.001 mol %) catalyst concentrations using rhodium catalysts containing chiral ligands (140,141). Practical synthesis of several optically active natural... [Pg.180]

These reactions can be cataly2ed by bases, eg, pyridine, or by Lewis acids, eg, 2inc chloride. In the case of asymmetric alcohols, steric control, ie, inversion, racemi2ation, or retention of configuration at the reaction site, can be achieved by the choice of reaction conditions (173,174). Some alcohols dehydrate to olefins when treated with thionyl chloride and pyridine. [Pg.141]

HORNER - KNOWLES - KAGAN Asymmetric Hydrogenation Enantnselective hydrogenation of prochirai olefins with chiral Rh catalysts... [Pg.180]

SHARPLESS Asymmetric Oihydroxylation Enantioselecthfe syn dihyroxylation of olefins using AO-mn-p formed from phthalazine-... [Pg.344]

CDP840 is a selective inhibitor of the PDE-IV isoenzyme and interest in the compound arises from its potential application as an antiasthmatic agent. Chemists at Merck Co. used the asymmetric epoxidation reaction to set the stereochemistry of the carbon framework and subsequently removed the newly established C-O bonds." Epoxidation of the trisubstituted olefin 51 provided the desired epoxide in 89% ee and in 58% yield. Reduction of both C-O bonds was then accomplished to provide CDP840. [Pg.41]

Boger et al. prepared Duocarmycin SA via asymmetric epoxidation of a cyclic olefin 54." The stereochemistry set by the epoxidation step was used for subsequent C-C bond forming reactions. Epoxidation of olefin 54 was carried at -78°C to provide... [Pg.41]

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. [Pg.50]

Asymmetric Sharpless dihydroxylation of olefins using catalysts supported by polymers with heterocyclic fragments 98EJ021. [Pg.211]

Asymmetric catalytic epoxidation of nonfunctionalized olefins 93MI3, 98MI1. [Pg.244]

Asymmetric bias generated by protected vicinal diol controller and its application to asymmetric nitrone-olefin cycloaddition reactions 98YGK86. [Pg.253]

Asymmetric olefination using optically active P,0-heterocycles as reagents 98YGK521. [Pg.271]

The modification of chiral enamlnes enables the asymmetric nltro-olefination of oxyin-... [Pg.101]

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