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Conjugate additions enol silanes

Scheme 3.7. Diastereoselective formation of /S-silyl ( )- or (Z)-ester enolates by silylcuprate conjugate addition followed by alkylation with aldehydes [49]. Stereoselective synthesis of ( )-and (Z)-allyl silanes [50]. Scheme 3.7. Diastereoselective formation of /S-silyl ( )- or (Z)-ester enolates by silylcuprate conjugate addition followed by alkylation with aldehydes [49]. Stereoselective synthesis of ( )-and (Z)-allyl silanes [50].
Group-transfer polymerization (GTP) was discovered by scientists at DuPont and involves the conjugate Michael addition of an enol silane or related compound to acrylate or methacrylate monomers under the influence of an activator. The process is related to anionic polymerization but the species involved are believed to feature a high degree of covalent character in the transition state for chain growth. [Pg.153]

Hydrosilylations by complexed CuH have been applied to several substrate types (Scheme 1-17). As illustrated by the following examples, the stereochemical outcomes from both 1,2-additions (to aryl ketones and aryl imines ) and 1,4-conjugate additions (cyclic ketones, P-aryl and/or P-silyl enoates, and unsaturated lactones) can be controlled by these ligand-accelerated reactions. One of the key tricks to this chemistry is to take advantage of the tolerance of CuH complexes to alcohols and water.In fact, several methods rely on the presence of a bulky alcohol (e.g., t-BuOH) to significantly enhance reaction rates. It takes relatively little added alcohol (volume-wise) to accelerate the hydrosilylation, usually on the order of 1-3 equivalents. The role of this additive is usually ascribed to the more rapid quenching of an intermediate copper alkoxide or enolate, which necessarily generates a copper alkoxide, an ideal precursor to rapid reformation of CuH in the presence of excess silane. Thus, the rate increase is presumably due to... [Pg.98]

The formal conjugate addition of a hydride to a,f(-unsaturated carbonyl compounds with a subsequent aldol reaction of the in situ formed enolate has been frequently employed in organic synthesis. A broad range of procedures have been developed using various metals (e.g., rhodium, cobalt, iridium, mthenium, copper) and different reductants (typically silanes, boranes, or elemental hydrogen) [37]. [Pg.287]

Cossy s approach for the synthesis of leucascandrolide A involved an asymmetric allylmetalation to incorporate the stereogenic centers at C(5), C(7), C(9), C(ll) and C(12), and olefin metathesis. Construction of the 2,6-cis- and 2,6-trani-tetr-ahydropyrans was achieved by the Mukaiyama enol silane addition and oxa-conjugate addition reaction, respectively. The synthesis commenced with the... [Pg.82]

Silane hydrides can be used for the reduction of carbonyls and alkenes. Reaction of methylcyclohexene with a mixture of triethylsilane (EtsSiH) and trifluoroacetic acid (CF3CO2H) reduced the alkene moiety to give methylcyclohexane in 72% yield. 2 Under the same conditions, however, 1-pentene was not reduced. More commonly, this reagent is used for reduction of conjugated carbonyls, probably via formation of a silyl enolate (secs. 9.2, 9.3.B) as in the reduction of cyclohexenone to cyclohexanone in 85% yield with Ph2SiH2. Addition of transition metals such as ZnCl2, or copper salts to the silane facilitates the reduc-tion,594 as in the conversion of 576 to 577 in 96% yield. ... [Pg.412]


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See also in sourсe #XX -- [ Pg.585 ]




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Conjugate enolates

Conjugated enol

Enol silanes

Enolate Additions

Enolates conjugate addition

Enols conjugate additions

Silanes Additive

Silanes, addition

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