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Ketenes carbonyl compound reaction

The methods for generating acyl ketenes (Scheme 7-V) and their subsequent in situ participation in [4 + 2] cycloadditions with a wide range of hetero- or olehnic and acetylenic dienophiles (Scheme 7-VI), including acyl ketenes, carbonyl compounds,nitriles,isocyanates and isothiocyanates,ketenes,(mines,carbo-diimides, ynamines, ketene acetals, enol ethers,and V-sulfinylamines have been extensively reviewed.Two reports have detailed the 4tt participation of allenic ketones in [4 + 2] cycloaddition reactions [Eq. (51)]. ... [Pg.200]

Such copolymers of oxygen have been prepared from styrene, a-methylstyrene, indene, ketenes, butadiene, isoprene, l,l-diphen5iethylene, methyl methacrjiate, methyl acrylate, acrylonitrile, and vinyl chloride (44,66,109). 1,3-Dienes, such as butadiene, yield randomly distributed 1,2- and 1,4-copolymers. Oxygen pressure and olefin stmcture are important factors in these reactions for example, other products, eg, carbonyl compounds, epoxides, etc, can form at low oxygen pressures. Polymers possessing dialkyl peroxide moieties in the polymer backbone have also been prepared by base-catalyzed condensations of di(hydroxy-/ f2 -alkyl) peroxides with dibasic acid chlorides or bis(chloroformates) (110). [Pg.110]

Carbonyl Compounds. Cychc ketals and acetals (dioxolanes) are produced from reaction of propylene oxide with ketones and aldehydes, respectively. Suitable catalysts iaclude stannic chloride, quaternary ammonium salts, glycol sulphites, and molybdenum acetyl acetonate or naphthenate (89—91). Lactones come from Ph4Sbl-cataly2ed reaction with ketenes (92). [Pg.135]

Thermal [2h-2] cycloaddition reactions of carbonyl compounds were catalyzed by a Lewis acid. The catalyst forms complexes with the carbonyl compounds and enhances the electron-accepting power. The reaction shifts from the delocalization band to the pseudoexcitation band. Catalyzed [2h-2] cycloaddition reactions were observed with acetylenic compounds [28] and ketenes [29-31]. [Pg.31]

The enolates of other carbonyl compounds can be used in mixed aldol reactions. Extensive use has been made of the enolates of esters, thiol esters, amides, and imides, including several that serve as chiral auxiliaries. The methods for formation of these enolates are similar to those for ketones. Lithium, boron, titanium, and tin derivatives have all been widely used. The silyl ethers of ester enolates, which are called silyl ketene acetals, show reactivity that is analogous to silyl enol ethers and are covalent equivalents of ester enolates. The silyl thioketene acetal derivatives of thiol esters are also useful. The reactions of these enolate equivalents are discussed in Section 2.1.4. [Pg.78]

As discussed in Section 10.4 of Part A, concerted suprafacial [2tt + 2tt] cycloadditions are forbidden by orbital symmetry rules. Two types of [2 + 2] cycloadditions are of synthetic value addition reactions of ketenes and photochemical additions. The latter group includes reactions of alkenes, dienes, enones, and carbonyl compounds, and these additions are discussed in the sections that follow. [Pg.538]

Silyl enol ethers and silyl ketene acetals also offer both enhanced reactivity and a favorable termination step. Electrophilic attack is followed by desilylation to give an a-substituted carbonyl compound. The carbocations can be generated from tertiary chlorides and a Lewis acid, such as TiCl4. This reaction provides a method for introducing tertiary alkyl groups a to a carbonyl, a transformation that cannot be achieved by base-catalyzed alkylation because of the strong tendency for tertiary halides to undergo elimination. [Pg.863]

The overall reaction is reminiscent of the Wolff rearrangement of a-diazo carbonyl compounds which gives ketenes. Compounds 6 formally represent their phosphorus analogues and are sometimes also designated as phosphenes 11... [Pg.77]

The condensation of activated thiols onto adjacent nitriles is a common method for the preparation of amine-substituted thiophenes. A three component condensation was utilized to prepare a-aminothiophene 11 <00TL1597>. An alternate method for preparing amino-substituted thiophenes involved the treatment of ketene S,JV-acetal 12 with an activated carbonyl compound 13 which gave thiophene 14 <00JOC3690>. This type of reaction has also been utilized to prepare building blocks for the synthesis of fused thiophenes <00JHC363>. [Pg.88]

Silyloxy esters.l Silyl ketene acetals are known to undergo aldol condensation with carbonyl compounds in the presence of TiCl4 (12,268) to afford (3-silyloxy esters. The same products can be obtained in a one-step reaction of an a,p-unsaturated ester with trimethylsilane and a carbonyl compound in the presence of RhCl3H20. [Pg.271]

Abstract The basic principles of the oxidative carbonylation reaction together with its synthetic applications are reviewed. In the first section, an overview of oxidative carbonylation is presented, and the general mechanisms followed by different substrates (alkenes, dienes, allenes, alkynes, ketones, ketenes, aromatic hydrocarbons, aliphatic hydrocarbons, alcohols, phenols, amines) leading to a variety of carbonyl compounds are discussed. The second section is focused on processes catalyzed by Pdl2-based systems, and on their ability to promote different kind of oxidative carbonylations under mild conditions to afford important carbonyl derivatives with high selectivity and efficiency. In particular, the recent developments towards the one-step synthesis of new heterocyclic derivatives are described. [Pg.244]

Three years after the discovery of the asymmetric BINOL phosphate-catalyzed Mannich reactions of silyl ketene acetals or acetyl acetone, the Gong group extended these transformations to the use of simple ketones as nucleophiles (Scheme 25) [44], Aldehydes 40 reacted with aniline (66) and ketones 67 or 68 in the presence of chiral phosphoric acids (R)-3c, (/ )-14b, or (/ )-14c (0.5-5 mol%, R = Ph, 4-Cl-CgH ) to give P-amino carbonyl compounds 69 or 70 in good yields (42 to >99%), flnfi-diastereoselectivities (3 1-49 1), and enantioselectivities (72-98% ee). [Pg.416]

We here further demonstrate the merits of Fe -exchanged montmorillonite over the conventional homogeneous acid catalysts, applying it to other types of liquid-phase carbon-carbon bond-forming reactions between carbonyl compounds and useful nucleophilic carbanion reagents such as silyl ketene acetal (an ester... [Pg.371]

Figure G shows some insertion reactions of carbonyl compounds. In the isocyanate and ketene cases, the addition takes place, not to the carbonyl double bond, but to the carbon—nitrogen or the carbon—carbon double bond. Figure G shows some insertion reactions of carbonyl compounds. In the isocyanate and ketene cases, the addition takes place, not to the carbonyl double bond, but to the carbon—nitrogen or the carbon—carbon double bond.
With conjugated dienes, photocycloaddition of carbonyl compounds occurs at one of the double bonds to give vinyloxetanes. An interesting example is the reaction of acetone with 2-methyl-l,3-butadiene, which gave the two oxetanes (60) and (61) in a ratio of 3 1 and a total yield of about 20% (72JA8761). Other alkenes which have been used for photosynthesis of oxetanes include enol ethers, ketene acetals, enamines, allenes and diketene, with the reaction of the last compound with benzaldehyde illustrated in equation (105) (75CPB365). [Pg.397]

Both singlet and triplet n,-n states undergo the reaction.40 The intermediate diradical can also cyclize to a cyclobutanol, which is often a side product. Carboxylic esters, anhydrides, and other carbonyl compounds can also give this reaction.41 The photolysis of ketene to CHi (p. 199) is still another example of a reaction in category 2. Both singlet and triplet CH2 are generated, the latter in two ways ... [Pg.244]

Reaction of the anion prepared by deprotonation of a ketene thioacetal (799) (LDA or s-butyllithium) with a carbonyl compound has been shown to afford generally the product of y-addition (800) (80JOC2236). Mercury ion-assisted hydrolysis of the 5-hydroxy ketene thioacetal provides access to a y-lactone (801 Scheme 187). The y-selectivity of carbonyl substrates is to be contrasted with the a-selectivity generally exhibited by alkyl halides in... [Pg.488]

Alcohols can also be prepared from support-bound carbon nucleophiles and carbonyl compounds (Table 7.4). Few examples have been reported of the a-alkylation of resin-bound esters with aldehydes or ketones. This reaction is complicated by the thermal instability of some ester enolates, which can undergo elimination of alkoxide to yield ketenes. Traces of water or alcohols can, furthermore, lead to saponification or transesterification and release of the substrate into solution. Less prone to base-induced cleavage are support-bound imides (Entry 2, Table 7.4 see also Entry 3, Table 13.8 [42]). Alternatively, support-bound thiol esters can be converted into stable silyl ketene acetals, which react with aldehydes under Lewis-acid catalysis (Entries 3 and 4, Table 7.4). [Pg.216]

The reaction of nitroarenes with silyl end ethers and ketene silyl acetals in MeCNATiF with 1 equiv. of TASF, followed by in situ oxidation with Br2 or DDQ, provides an easy route to a-nitroaryl carbonyl compounds (Scheme l).12 The use of these compounds as reagents for the synthesis of arylacetic acids, propionic acids, indoles, 2-indolinones and other heterocyclic compounds has recently been described.88... [Pg.429]

It has been long established that Lewis acid-catalysed [2+2] cycloaddition of ketenes and carbonyl compounds provides access to 2-oxetanones. In the development of this reaction prior to 1996, there has been a specific focus on controlling the stereochemistry of the /3-lactone product and cycloadditions have been achieved between trimethyl-silylketene and aldehydes with up to 90% stereoselectivity, as discussed in CHEC-II(1996) <1996CHEC-II(1)721>. CHEC(1984) and CHEC-II(1996) also discuss examples of the Lewis acid-catalyzed, nonphotolytic [2+2] cycloaddition of electron-rich alkenes with aldehydes or ketones <1984CHEC(7)363, 1996GHEC-II(1)721>. While this method can have some advantages over the photolytic reaction in terms of regioselectivity, no examples of this reaction have been reported in recent years. [Pg.350]

The reaction of ketene with a,(1-unsaturated carbonyl compounds in the presence of a cationic palladium(ll) complex leads to the formation of 4-vinyloxetan-2-one intermediates 863, which rearrange under the reaction conditions to give 3,6-dihydropyran-2-ones 864. ot,(3-Unsaturated aldehydes provide higher yields of the desired 3,6-dihydropyran-2-ones than their corresponding ketones (Scheme 239, Table 37) <2000CC73, 2002T5215>. [Pg.612]

See other pages where Ketenes carbonyl compound reaction is mentioned: [Pg.296]    [Pg.155]    [Pg.213]    [Pg.877]    [Pg.165]    [Pg.877]    [Pg.349]    [Pg.115]    [Pg.358]    [Pg.109]    [Pg.308]    [Pg.155]    [Pg.155]    [Pg.676]    [Pg.114]    [Pg.119]    [Pg.213]    [Pg.391]    [Pg.143]    [Pg.718]    [Pg.720]    [Pg.361]    [Pg.550]    [Pg.217]    [Pg.339]    [Pg.241]   
See also in sourсe #XX -- [ Pg.443 , Pg.445 , Pg.457 ]



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