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Enolate reaction with aldehydes

Table 6. Aldol Reaction of Fluorinated Enol Phosphates with Aldehydes [14 ... Table 6. Aldol Reaction of Fluorinated Enol Phosphates with Aldehydes [14 ...
Aldol reaction of the a-trimethylsilylated enolate 9 with aldehydes provides nearly equal amounts of chromatographically separable ( )- and (Z)-isomers of iron-acyl complexes 11 via silyloxide elimination from the intermedate aldolate 10 (Table 3). This methodology has been the most commonly employed entry to the (Z)-isomer series. [Pg.528]

Aldol reactions of a-substituted iron-acetyl enolates such as 1 generate a stcrcogenic center at the a-carbon, which engenders the possibility of two diastereomeric aldol adducts 2 and 3 on reaction with symmetrical ketones, and the possibility of four diastereomeric aldol adducts 4, 5, 6, and 7 on reaction with aldehydes or unsymmetrical ketones. The following sections describe the asymmetric aldol reactions of chiral enolate species such as 1. [Pg.540]

The lithium enolate of a-alkoxy substituted complex 9 also exhibited little selectivity upon reaction with aldehydes all four possible diastereomers were produced when it was treated with acetaldehyde49. [Pg.547]

In 1991, Kobayashi el al. prepared novel chiral S/N ligands for the tin-mediated aldol reaction of silyl enol ethers with aldehydes. As an example, the reaction of benzaldehyde afforded the expected syn aldol product as the major product with a good yield and an enantioselectivity of up to 92% ee (Scheme 10.26). Moreover, other aldehydes such as substituted benzaldehydes or aliphatic unsaturated aldehydes were converted into their corresponding aldol products with enantioselectivities of more than 90% ee. It was checked that the corresponding diamine ligands provided less active complexes for the same reactions. [Pg.314]

Sc(OTf)3 is an effective catalyst in aldol reactions of silyl enol ethers with aldehydes.49 Compared with other typical rare-earth-metal (Y, Yb) trifiates, Sc(OTf)3 has the strongest activity in the reaction of 1-trimethylsiloxycyclohexane with benzaldehyde in dichloromethane. Although the reaction scarcely proceeded at —78°C in the presence of Y(OTf)3 or Yb(OTf)3, the aldol adduct was obtained in 81% yield in the presence of Sc(OTf)3 (Scheme 9). [Pg.403]

S. Kobayashi, L Hachiya, The Aldol Reaction of Silyl Enol Ethers with Aldehydes in Aqueous Media Tetrahedron Lett. 1992,1625-1628. [Pg.12]

S. Kobayashi, T. Wakabayashi, S. Nagayama, H. Oya-mada, Lewis Add Catalysis in MiceUar Systems. Sc(OTf)3-Catalyzed Aqueous Aldol Reactions of Silyl Enol Ethers with Aldehydes in the Presence of a Surfactant Tetrahedron Lett. 1997,38, 4559-4562... [Pg.12]

The first promising asymmetric aldol reactions through phase transfer mode will be the coupling of silyl enol ethers with aldehydes utilizing chiral non-racemic quaternary ammonium fluorides,1371 a chiral version of tetra-n-butylammonium fluoride (TBAF). Various ammonium and phosphonium catalysts were tried138391 in the reaction of the silyl enol ether 41 of 2-methyl-l-tetralone with benzaldehyde, and the best result was obtained by use of the ammonium fluoride 7 (R=H, X=F) derived from cinchonine,1371 as shown in Scheme 14. [Pg.132]

Although in the recent years the stereochemical control of aldol condensations has reached a level of efficiency which allows enantioselective syntheses of very complex compounds containing many asymmetric centres, the situation is still far from what one would consider "ideal". In the first place, the requirement of a substituent at the a-position of the enolate in order to achieve good stereoselection is a limitation which, however, can be overcome by using temporary bulky groups (such as alkylthio ethers, for instance). On the other hand, the ( )-enolates, which are necessary for the preparation of 2,3-anti aldols, are not so easily prepared as the (Z)-enolates and furthermore, they do not show selectivities as good as in the case of the (Z)-enolates. Finally, although elements other than boron -such as zirconium [30] and titanium [31]- have been also used succesfully much work remains to be done in the area of catalysis. In this context, the work of Mukaiyama and Kobayashi [32a,b,c] on asymmetric aldol reactions of silyl enol ethers with aldehydes promoted by tributyltin fluoride and a chiral diamine coordinated to tin(II) triflate... [Pg.265]

Diisobutylaluminium phenyl tellurolate, a highly air- and moisture-sensitive reagent, prepared by reaction of diisobutylaluminium hydride with diphenyl ditelluride, undergoes an in situ addition to a,jS-unsaturated carbonyl compounds, leading to the corresponding jS-phenyltelluroaluminium enolate. This intermediate is hydrolysed by aqueous HCl into jS-phenyltelluro compounds or smoothly affords an aldol reaction with aldehydes to give a-hydroxyalkyl-jS-phenyltellurocarbonyl compounds. [Pg.341]

In the aldol reaction, we saw an enolate anion acting as a nucleophile leading to an addition reaction with aldehydes and ketones. [Pg.379]

Aldol and Related Condensations As an elegant extension of the PTC-alkylation reaction, quaternary ammonium catalysts have been efficiently utilized in asymmetric aldol (Scheme 11.17a)" and nitroaldol reactions (Scheme ll.lTb) for the constmction of optically active p-hydroxy-a-amino acids. In most cases, Mukaiyama-aldol-type reactions were performed, in which the coupling of sUyl enol ethers with aldehydes was catalyzed by chiral ammonium fluoride salts, thus avoiding the need of additional bases, and allowing the reaction to be performed under homogeneous conditions. " It is important to note that salts derived from cinchona alkaloids provided preferentially iyw-diastereomers, while Maruoka s catalysts afforded awh-diastereomers. [Pg.338]

Huang, X.-T. Chen, Q.-Y. Ethyl a-Fluoro Silyl Enol Ether Stereoselective Synthesis and Its Aldol Reaction with Aldehydes and Ketones. J. Org. Chem. 2002, 67, 3231-3234. [Pg.673]

Magnesium enolates react with aldehydes and ketones to give aldol products after hydrolysis. The reaction proceeds both regio- and stereoselectively and has found many applications in the synthesis of natural products. [Pg.480]

Reaction of the proline derivative 8 with pivaldehyde (1) in CH2C12 catalyzed by TFA results in a single product (9). Treatment of 9 with MeLi and then with LDA furnishes the enolate a. Alkylation or reaction with aldehydes or acetone followed by acid hydrolysis furnishes enantiomerically pure 2-substituted 4-hy-droxyprolines (10), with retention of configuration.3... [Pg.251]

The arylation of acetaldehyde enolate by iodobenzene17-128 or p-iodoaniline73 failed, and the reduced products, benzene or aniline were obtained. In the reaction of aldehyde enolates with o-substituted derivatives, however, arylation does occur and in these cases subsequent cyclization reactions usually take place (see Section 2.2.4.2). The special effect of the o-substituents in facilitating reactions with aldehyde enolates is shown by the rare example of simple substitution (i.e. without concomitant cyclization) in equation (34).71... [Pg.466]


See other pages where Enolate reaction with aldehydes is mentioned: [Pg.776]    [Pg.273]    [Pg.415]    [Pg.113]    [Pg.29]    [Pg.132]    [Pg.65]    [Pg.675]    [Pg.528]    [Pg.86]    [Pg.155]    [Pg.86]    [Pg.155]    [Pg.1132]    [Pg.423]    [Pg.699]    [Pg.342]    [Pg.340]    [Pg.217]    [Pg.221]   
See also in sourсe #XX -- [ Pg.34 ]




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Aldehyde enolate

Aldehyde enols

Aldehydes aldol reactions with silyl enol ethers

Aldehydes enolate anions, reaction with

Aldehydes enolates

Aldehydes enolization

Aldehydes reaction with silyl enol ethers

Aldehydes reactions with enolates

Aldehydes reactions with enolates

Aldehydes, a-methyl reaction with enol silanes

Aldehydes, p-alkoxy reaction with enol silanes

Aldehydes, reaction with amide enolate anions

Aldehydes, reaction with anhydride enolates

Aldehydes, reaction with borane enolates

Aldehydes, reaction with ester enolates

Aldehydes, reaction with nitro enolates

Aldol condensation aldehyde reaction with enolates

Ammonium fluoride, tetrabutylcatalyst enol silane reaction with aldehydes

Boron enolates reactions with aldehydes

Diastereoselectivity aldehydes, reaction with enolates

Enol silanes reaction with aldehydes

Enol silanes reaction with aldehydes, diastereoselectivity

Enol silanes reaction with aldehydes, stereoselectivity

Enol silanes reaction with chiral a-alkoxy aldehydes

Enol silanes reaction with chiral a-methyl aldehydes

Enol silanes, nonstereogenic reaction with aldehydes

Enol silanes, nonstereogenic reaction with aldehydes, diastereoselectivity

Enol silanes, stereogenic reaction with aldehydes

Enolate anions, esters, reaction with aldehydes

Enolate anions, malonic acid, reaction with aldehydes

Enolate anions, nitro compounds, reaction with aldehydes

Enolates continued) reaction with aldehydes

Enols reactions with

Fluorides enol silane reaction with aldehydes

Malonic acid, enolate, reaction with aldehydes

Reactions of enolates with aldehydes and ketones the aldol reaction

Reactions, with enolates

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