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Halides chiral, reduction

In a retrosynthetic sense, breaking the cyclopentene-aryl bond seemed very attractive, forming two roughly equal halves of die molecule. Compounds 14 and 15 could be joined synthetically using a cross coupling reaction where X is a halide or triflate and M is a metal such as boron or zinc. Protected hydroxylamino-cyclopentene 15 could arise from Sn2 inversion of chiral cyclopentenol 16, which in turn could be formed by chiral reduction (or achiral reduction/resolution) of 3-substituted cyclopentenone 17. The development of a new route based on this retrosynthetic analysis is described below. [Pg.147]

Chiral oxazolines developed by Albert I. Meyers and coworkers have been employed as activating groups and/or chiral auxiliaries in nucleophilic addition and substitution reactions that lead to the asymmetric construction of carbon-carbon bonds. For example, metalation of chiral oxazoline 1 followed by alkylation and hydrolysis affords enantioenriched carboxylic acid 2. Enantioenriched dihydronaphthalenes are produced via addition of alkyllithium reagents to 1-naphthyloxazoline 3 followed by alkylation of the resulting anion with an alkyl halide to give 4, which is subjected to reductive cleavage of the oxazoline moiety to yield aldehyde 5. Chiral oxazolines have also found numerous applications as ligands in asymmetric catalysis these applications have been recently reviewed, and are not discussed in this chapter. ... [Pg.237]

The triazole 76, which is more accurately portrayed as the nucleophilic carbene structure 76a, acts as a formyl anion equivalent by reaction with alkyl halides and subsequent reductive cleavage to give aldehydes as shown (75TL1889). The benzoin reaction may be considered as resulting in the net addition of a benzoyl anion to a benzaldehyde, and the chiral triazolium salt 77 has been reported to be an efficient asymmetric catalyst for this, giving the products (/ )-ArCH(OH)COAr, in up to 86% e.e. (96HCA1217). In the closely related intramolecular Stetter reaction e.e.s of up to 74% were obtained (96HCA1899). [Pg.100]

Reduction of chiral cyclopropyl halides using Sml2 has been investigated... [Pg.140]

Although the tin hydride reductions of alkyl halides seem simple, one must be careful because these reactions occur by a free radical mechanism. This is important, because the carbon radical produced in the reaction can isomerize68,78 and one often obtains two different stereoisomers from the synthesis. Another problem is that chiral centres can be lost in tin hydride reductions when an optically active halide is reduced. One example of this is the reduction of benzyl-6-isocyanopenicillanate with tributyltin deuteride78 (Scheme 14). The amount of isomerization depends on the temperature, the concentration of the tin hydride and the presence of and /-substituents78-82. However, some authors have reported tin hydride reductions where no racemization was observed78. [Pg.789]

A useful approach for the preparation of chiral (3-aminophospho-nic acids from the naturally occurring a-amino acids has been reported.139 The overall scheme (Equation 3.4) involves formation of the phthalimide-acid halide from the starting a-amino acid followed by a Michaelis-Arbuzov reaction with triethyl phosphite to give the acylphosphonate. Complete reduction of the carbonyl group in three steps followed by hydrolysis of the ester and amide linkages provides the target material in very high yield without racemization (>99% ee). [Pg.49]

By using glycine diphenylmethyl (Dpm) amide-derived Schiff base 22 as a key substrate and N-spiro chiral quaternary ammonium bromide lg as an ideal catalyst, a high enantioselectivity was achieved, even in the alkylation with less-reactive simple secondary alkyl halides, as shown in Table 5.5 [21]. This system offers a facile access to structurally diverse optically active vicinal diamines in combination with the subsequent reduction (Scheme 5.14) [21]. [Pg.85]

The mechanism of the enantioselective 1,4-addition of Grignard reagents to a,j3-unsaturated carbonyl compounds (Scheme 5 R1 = alkyl R2 = alkyl, OR3), promoted by copper complexes of chiral ferrocenyl diphosphines (180), has been explored using kinetic, spectroscopic, and electrochemical analysis. The roles of the solvent, copper halide, and the Grignard reagent have been thoroughly examined. Kinetic studies support a reductive elimination as the rate-limiting step, in which the chiral catalyst,... [Pg.362]

Reduction of sulfoxides to thioethers.1 Use of hydrogen halides for this reduction was first reported in 1909 and is still a viable method. This reduction has assumed importance since chiral sulfinyl groups are valuable in asymmetric syntheses and are eliminated in two steps reduction to the ether followed by catalytic hydrogenation or metal/ammonia reduction. The first step can now be carried out with several reagents, as shown by this comprehensive review (349 references). [Pg.166]

See other pages where Halides chiral, reduction is mentioned: [Pg.1347]    [Pg.168]    [Pg.488]    [Pg.318]    [Pg.983]    [Pg.521]    [Pg.1230]    [Pg.98]    [Pg.539]    [Pg.411]    [Pg.179]    [Pg.217]    [Pg.280]    [Pg.280]    [Pg.105]    [Pg.187]    [Pg.73]    [Pg.119]    [Pg.297]    [Pg.859]    [Pg.92]    [Pg.651]    [Pg.278]    [Pg.534]    [Pg.183]    [Pg.125]    [Pg.250]    [Pg.351]    [Pg.363]    [Pg.437]    [Pg.67]    [Pg.69]   
See also in sourсe #XX -- [ Pg.1081 ]



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Chiral reductions

Halides reduction

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