Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Aldol Lewis-acid-catalyzed

In an intramolecular aldol condensation of a diketone many products are conceivable, since four different ends can be made. Five- and six-membered rings, however, wUl be formed preferentially. Kinetic or thermodynamic control or different acid-base catalysts may also induce selectivity. In the Lewis acid-catalyzed aldol condensation given below, the more substituted enol is formed preferentially (E.J. Corey, 1963 B, 1965B). [Pg.93]

Danshefsky s diene [19] is the 1,3-butadiene with amethoxy group at the 1-position and a trimethylsiloxy group at the 3-position (Scheme 18). This diene and Lewis acids extended the scope of hetereo-Diels-Alder reactions with aldehydes [20], This diene reacts with virtually any aldehyde in the presence of Lewis acids whereas dienes usually react with only selected aldehydes bearing strongly electron accepting a-substituents. There are two (Diels-Alder and Mukaiyama aldol) reaction pathways (Scheme 18) identified for the Lewis acids catalyzed reactions of Danishefsky diene with aldehydes [21, 22]. The two pathways suggest that these reactions occur on the boundary between the delocahzation band (the pericyclic... [Pg.69]

The Mukaiyama aldol reaction refers to Lewis acid-catalyzed aldol addition reactions of silyl enol ethers, silyl ketene acetals, and similar enolate equivalents,48 Silyl enol ethers are not sufficiently nucleophilic to react directly with aldehydes or ketones. However, Lewis acids cause reaction to occur by coordination at the carbonyl oxygen, activating the carbonyl group to nucleophilic attack. [Pg.82]

As is the case for aldol addition, chiral auxiliaries and catalysts can be used to control stereoselectivity in conjugate addition reactions. Oxazolidinone chiral auxiliaries have been used in both the nucleophilic and electrophilic components under Lewis acid-catalyzed conditions. (V-Acyloxazolidinones can be converted to nucleophilic titanium enolates with TiCl3(0-/-Pr).320... [Pg.193]

Lewis-Acid Catalyzed. Recently, various Lewis acids have been examined as catalyst for the aldol reaction. In the presence of complexes of zinc with aminoesters or aminoalcohols, the dehydration can be avoided and the aldol addition becomes essentially quantitative (Eq. 8.97).245 A microporous coordination polymer obtained by treating anthracene- is (resorcinol) with La(0/Pr)3 possesses catalytic activity for ketone enolization and aldol reactions in pure water at neutral pH.246 The La network is stable against hydrolysis and maintains microporosity and reversible substrate binding that mimicked an enzyme. Zn complexes of proline, lysine, and arginine were found to be efficient catalysts for the aldol addition of p-nitrobenzaldehyde and acetone in an aqueous medium to give quantitative yields and the enantiomeric excesses were up to 56% with 5 mol% of the catalysts at room temperature.247... [Pg.268]

Asymmetric Lewis-Acid Catalyzed. Another important advance in aqueous Mukaiyama aldol reaction is the recent success of asymmetric catalysis.283 In aqueous ethanol, Kobayashi and co-workers achieved asymmetric inductions by using Cu(OTf)2/chiral >A(oxazoline) ligand,284 Pb(OTf)2/chiral crown ether,285 and Ln(OTf)3/chiral Mv-pyridino-18-crown-6 (Eq. 8.105).286... [Pg.274]

Indium trichloride349-351 is a mild Lewis acid that is effective for various kinds of Lewis-acid-catalyzed reactions such as Diels-Alder reactions (Scheme 85), aldol reactions, and Friedel Crafts reactions. Since indium trichloride is stable in water, several aqueous reactions have been investigated (Scheme 85) indium(III) triflate is also used as a Lewis acid. [Pg.436]

A Lewis acid-catalyzed vinylogous Mukaiyama aldol reaction between 2-trialkylsilyloxyfurans and a-substituted ketones proceeded diastereoselectively... [Pg.178]

This method has been applied in the enantioselective synthesis of d-erythro-sphingosine and phytosphingosine. Sphingosine became an important substance for studying signal transduction since the discovery of protein kinase C inhibition by this compound.48 Many efforts have been made to synthesize sphingosine and its derivatives.49 Kobayashi et al. reported another route to this type of compound in which a Lewis acid-catalyzed asymmetric aldol reaction was a key step. [Pg.158]

Judging from these findings, the mechanism of Lewis acid catalysis in water (for example, aldol reactions of aldehydes with silyl enol ethers) can be assumed to be as follows. When metal compounds are added to water, the metals dissodate and hydration occurs immediatdy. At this stage, the intramolecular and intermolecular exchange reactions of water molecules frequently occur. If an aldehyde exists in the system, there is a chance that it will coordinate to the metal cations instead of the water molecules and the aldehyde is then activated. A silyl enol ether attacks this adivated aldehyde to produce the aldol adduct. According to this mechanism, it is expected that many Lewis acid-catalyzed reactions should be successful in aqueous solutions. Although the precise activity as Lewis acids in aqueous media cannot be predicted quantitatively... [Pg.6]

While the Lewis acid-catalyzed aldol reactions in aqueous solvents described above are catalyzed smoothly by several metal salts, a certain amount of an organic solvent such as THF had still to be combined with water to promote the reactions efficiently. This requirement is probably because most substrates are not soluble in water. To avoid the use of the organic solvents, we have developed a new reaction system in which metal triflates catalyze aldol reactions in water with the aid of a small amount of a surfactant, such as sodium dodecyl sulfate (SDS). [Pg.7]

The catalytic asymmetric aldol reaction has been applied to the LASC system, which uses copper bis(-dodecyl sulfate) (4b) instead of CufOTf. 1261 An example is shown in Eq. 6. In this case, a Bronsted add, such as lauric add, is necessary to obtain a good yield and enantioseledivity. This example is the first one involving Lewis acid-catalyzed asymmetric aldol reactions in water without using organic solvents. Although the yield and the selectivity are still not yet optimized, it should be noted that this appredable enantioselectivity has been attained at ambient temperature in water. [Pg.10]

Lewis acid-catalyzed aldol condensation of aldehyde and silyl enol ether. [Pg.403]

Fig. 13). The cross-linked scandium-modified dendrimer was tested in a number of Lewis acid-catalyzed reactions, including Mukaiyama aldol additions to aldehydes and aldimines, Diels-Alder reactions, and Friedel-Crafts acylations. The dendritic catalyst was recovered by a simple filtration. The Mukaiyama aldol... [Pg.125]

Several methods for the anti-selective, asymmetric aldol reaction recorded in the literature include (i) the use of boron, titanium, or tin(ll) enolate carrying chiral ligands, (ii) Lewis acid-catalyzed aldol reactions of a metal enolate of chiral carbonyl compounds, and (iii) the use of the metal enolate derived from a chiral carbonyl compound. Although many of these methods provide anti-aldols with high enantioselectivities, these methods are not as convenient or widely applicable as the method reported here, because of problems associated with the availability of reagents, the generality of reactions, or the required reaction conditions. [Pg.61]

This chapter deals mainly with the 1,3-dipolar cycloaddition reactions of three 1,3-dipoles azomethine ylides, nitrile oxides, and nitrones. These three have been relatively well investigated, and examples of external reagent-mediated stereocontrolled cycloadditions of other 1,3-dipoles are quite limited. Both nitrile oxides and nitrones are 1,3-dipoles whose cycloaddition reactions with alkene dipolarophiles produce 2-isoxazolines and isoxazolidines, their dihydro derivatives. These two heterocycles have long been used as intermediates in a variety of synthetic applications because their rich functionality. When subjected to reductive cleavage of the N—O bonds of these heterocycles, for example, important building blocks such as p-hydroxy ketones (aldols), a,p-unsaturated ketones, y-amino alcohols, and so on are produced (7-12). Stereocontrolled and/or enantiocontrolled cycloadditions of nitrones are the most widely developed (6,13). Examples of enantioselective Lewis acid catalyzed 1,3-dipolar cycloadditions are summarized by J0rgensen in Chapter 12 of this book, and will not be discussed further here. [Pg.757]

SCHEME 120. Lewis acid-catalyzed asymmetric aldol-type reaction of enol silyl ethers. [Pg.124]

B1.4. LEWIS ACID CATALYZED ASYMMETRIC ALDOL REACTION... [Pg.502]

Intermediate 3 can either be isolated or used in situ for further elaboration. Fluoride-5 and Lewis-acid catalyzed aldol reactions cleanly give aldol adducts,5 and the reaction with phenylsulfenyl chloride gives a-phenylthio ketones in high yield.5... [Pg.159]

The use of silyl enol ethers as an enolate equivalent in Lewis acid-catalyzed aldol additions. The trimethylsilyl group is thought of as a sterically demanding hydrogen equivalent that activates the enol and traps the aldol hydroxyl. [Pg.160]

In 2004, Kobayashi reported for the first time Lewis acid-catalyzed organic reactions such as Aldol- and Mannich-type reactions proceeded smoothly in scCC>2 using PEG derivatives as surfactants. This could be the first attempt to use PEG as surfactant, facilitating the formation of emulsions in a single scCC>2 phase to synthesize small organic molecules [57]. [Pg.26]

A further example of the use of 2//-thiopyrans as surrogates for m-substituted dienes involves the use of the protected 3,4-dihydio-3-(3-oxobutyl)A//-thiopyranA-onc, 3-[2-(2-methyl-l,3-dioxolan-2-yl)ethyl]-4-[tris(l-methy-lethyl)silyl)oxy-2//-thiopyran 328 as an equivalent of l-ethenyl-2-methylcyclohexene in Diels-Alder reactions. The thiopyran reacted with various maleimides to yield the endo cycloadducts and with methyl propenoate to give the exo adduct under either thermal or Lewis-acid-catalyzed conditions. In the latter case concomitant release of the protected ketone functions occurs, acid-catalyzed cyclization of which generates a fused cyclohexenone ring (Scheme 67). Desulfurization, preferably before the aldol cyclization, leads to derivatives of 2,3,4,4a,5,6,7,8-octahy-dro-4a-methylnaphthalenes < 1997CJC681 >. [Pg.832]

Lewis acid catalyzed intramolecular vinylogous aldol reaction of 5-substituted furoic acids afforded spiro compounds with high diastereoselectivity, which were converted to the zaragozic acids <02JOC4200>. [Pg.173]

Trimethylsilyl enolates of aldehydes and ketones are now established as highly useful synthetic intermediates.2 In particular, their Lewis acid-catalyzed reactions - e.g., alkylation 1 and mild, regiospecific aldol... [Pg.157]


See other pages where Aldol Lewis-acid-catalyzed is mentioned: [Pg.58]    [Pg.208]    [Pg.272]    [Pg.348]    [Pg.115]    [Pg.415]    [Pg.270]    [Pg.50]    [Pg.304]    [Pg.238]    [Pg.58]    [Pg.208]    [Pg.877]    [Pg.150]    [Pg.108]    [Pg.166]   
See also in sourсe #XX -- [ Pg.232 ]




SEARCH



Aldol Lewis acid catalyzed addition

Aldol lanthanide Lewis acid catalyzed

Lewis Acid-catalyzed Aldol Reactions of Silicon Enolates

Lewis acid-catalyzed

Lewis acid-catalyzed aldol condensation

Lewis acid-catalyzed crossed Aldol

Lewis acids catalyzing asymmetric aldol reaction

Lewis catalyzed

© 2024 chempedia.info