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Vinylation diketones

Aldehydes can be condensed with 1,3-diketones to give vinylic diketones 39 (X = H) and /V-bromsuccinimide converts these into the bromides 39 (X = Br) which supply furans 40 when heated. Yields are poor if the product carries no 5-substituent.101... [Pg.185]

Dibromopropene was used in an efficient thermodynamically controlled alkylation. Hydrolysis of the vinyl bromide yielded a 1,4-diketone (S.C. Welch, 1979). [Pg.63]

Conjugate addition of vinyllithium or a vinyl Grignard reagent to enones and subsequent oxidation afford the 1.4-diketone 16[25]. 4-Oxopentanals are synthesized from allylic alcohols by [3,3]sigmatropic rearrangement of their vinyl ethers and subsequent oxidation of the terminal double bond. Dihydrojasmone (18) was synthesized from allyl 2-octenyl ether (17) based on Claisen rearrangement and oxidation[25] (page 26). [Pg.24]

No intennolecular reaction of malonate or /3-keto esters with halides has been reported, but the intramolecular reaction of /3-diketones such as 790 and malonates proceeds smoothly[652,653]. Even the simple ketone 791 can be arylated or alkenylated intramolecularly. In this reaction, slow addition of a base is important to prevent alkyne formation from the vinyl iodide by elim-ination[654]. [Pg.245]

Diketones are readily transformed to cycHc derivatives, such as cyclopentanones and furans. In this manner, the fragrance dihydrojasmone (3-meth5l-2-pentyl-2-cyclopenten-l-one) is prepared by the base-catalyzed aldol condensation of 2,5-undecanedione. 2,5-Undecanedione is itself prepared from heptanal and methyl vinyl ketone in the presence of thiazoHum salts (329). i7j -Jasmone can be similarly prepared (330,331). [Pg.499]

Enamines in which the vinyl nitrogen system is in conjugation with another functional group can be obtained from reactions of secondary amines with /8-ketoaldehydes and -diketones or their monoenol ether or vinyl halide derivatives (41-46). [Pg.318]

Similarly, methyl vinyl ketone has been added to enamines derived from aldehydes (3,321,324-327) and ketones (3,328), providing a useful extension of the Robinson annelation reaetion. Condensations of enamines with other a, 3-unsaturated ketones can give a variety of diketones (329). [Pg.366]

The reaction of a cyclic ketone—e.g. cyclohexanone 1—with methyl vinyl ketone 2 resulting in a ring closure to yield a bicyclic a ,/3-unsaturated ketone 4, is called the Robinson annulation This reaction has found wide application in the synthesis of terpenes, and especially of steroids. Mechanistically the Robinson annulation consists of two consecutive reactions, a Michael addition followed by an Aldol reaction. Initially, upon treatment with a base, the cyclic ketone 1 is deprotonated to give an enolate, which undergoes a conjugate addition to the methyl vinyl ketone, i.e. a Michael addition, to give a 1,5-diketone 3 ... [Pg.240]

A number of metal chelates containing transition metals in their higher oxidation states are known to decompose by one electron transfer process to generate free radical species, which may initiate graft copolymerization reactions. Different transition metals, such as Zn, Fe, V, Co, Cr, Al, etc., have been used in the preparation of metal acetyl acetonates and other diketonates. Several studies demonstrated earlier that metal acetyl acetonates can be used as initiators for vinyl polymeriza-... [Pg.487]

As we have mentioned previously, 1,3-diketone and anilide were very effective reducing agents for vinyl polymerization initiated by ceric ion, respectively. Acetoacet-anilide (AAA), a compound having a 1,3-diketone and an anilide structure as well ... [Pg.544]

Symmetrical 1,4-diketones (249) can be prepared by the reaction of phenyl vinyl sulfones (53) or divinyl sulfone with aldehydes in the presence of 3-benzyl-5-(2-hydroxymethyl)-4-methylthiazolium chloride as a catalyst (equations 148 and 149)142. [Pg.813]

Katsumura, Kitaura and their coworkers [74] found and discussed the high reactivity of vinylic vs allylic hydrogen in the photosensitized reactions of twisted 1,3-dienes in terms of the interaction in the perepoxide structure. Yoshioka and coworkers [75] investigated the effects of solvent polarity on the product distribution in the reaction of singlet oxygen with enolic tautomers of 1,3-diketones and discussed the role of the perepoxide intermediate or the perepoxide-Uke transition state to explain their results. A recent review of the ene reactions of was based on the significant intervention of the perepoxide structure [76], which can be taken as a quasi-intermediate. [Pg.38]

The reaction of crotonaldehyde and methyl vinyl ketone with thiophenol in the presence of anhydrous hydrogen chloride effects conjugate addition of thiophenol as well as acetal formation. The resulting j3-phenylthio thioacetals are converted to 1-phenylthio-and 2-phenylthio-1,3-butadiene, respectively, upon reaction with 2 equivalents of copper(I) trifluoromethanesulfonate (Table I). The copper(I)-induced heterolysis of carbon-sulfur bonds has also been used to effect pinacol-type rearrangements of bis(phenyl-thio)methyl carbinols. Thus the addition of bis(phenyl-thio)methyllithium to ketones and aldehydes followed by copper(I)-induced rearrangement results in a one-carbon ring expansion or chain-insertion transformation which gives a-phenylthio ketones. Monothioketals of 1,4-diketones are cyclized to 2,5-disubstituted furans by the action of copper(I) trifluoromethanesulfonate. ... [Pg.106]

OS 52[ [OS 53[ [OS 54[ [OS 55[ [R 4b[ [P 38[ In a two-micro-mixing tee chip reactor, substrates with diketone moieties of known different reactivity, such as 2,4-pentanedione, benzoylacetone and diethyl malonate, were processed, each with the same acceptor ethyl propiolate [8]. Also, a reaction with the less alkynic Michael acceptor methyl vinyl ketone was carried out. [Pg.494]

Recently, on the basis of the Markovnikov addition of water to alkynes, Trost et al. developed a three-component addition reaction of terminal alkynes, water, and methyl vinyl ketone, affording 1,5-diketones in DMF/water in the presence of ruthenium and indium catalysts (Eq. 4.38). [Pg.118]

Selective retro-aldol has also been reported by using aqueous HC1 in THF.243 Recently, catalytic aldol reactions in aqueous media have generated great interest due to the atom-economy related to the reaction. Reaction of 2-alkyl-1,3-diketones with the aqueous formaldehyde using aqueous 6-10 M potassium carbonate as base afforded aldol reaction products, which are cleaved by the base to give vinyl ketones (Eq. 8.96).244... [Pg.267]

Disubstituted furans were synthesized from 1,4-diketones, which were prepared from the reaction of methyl vinyl ketones with arylboronic acids in the presence of CO using rhodium catalyst as illustrated below <06T11740>. [Pg.185]

Aside from alcohols, other oxygen nucleophiles have also participated in hydroalkoxylation reactions with alkynes. The most common of these are 1,3-dicarbonyl compounds, whose enol oxygens are readily available to add to alkynes. Cyclization reactions of this type have been carried out under Pd(0) catalysis with various aryl or vinyl iodides or triflates, often in the presence of CO, affording the corresponding furan derivatives (Equation (95)).337-340 A similar approach employing cyclic 1,3-diketones has also been reported to prepare THFs and dihydropyrans under Pd, Pt, or W catalysis.341 Simple l-alkyn-5-ones have also been isomerized to furans under the influence of Hg(OTf)2.342... [Pg.675]

Conjugate addition of RN02 to enones. Primary nitroalkanes and a, (3-enones when activated by alumina form conjugate addition products that are oxidized in situ by alkaline hydrogen peroxide to 1,4-diketones. A similar reaction of nitromethane with a vinyl ketone provides 1,4,7-triketones. [Pg.20]

Diketones. Some years ago Heiba and Dessau reported that Mn(OAc), promotes oxidative addition of isopropenyl acetate to ketones to give 1,4-diketones in 20-35% yield (6, 356). Use of CAN as the oxidant results in higher yields (65-80%) and a regioselective reaction at the more substituted a-position of the ketone.1 Use of vinyl acetate results in the dimethyl acetal of 4-oxo aldehydes. [Pg.74]

Before the mechanism of vinyl polymerization was understood, the question of the structure of vinyl polymers was of considerable interest. Staudinger had written these polymers as having a head-to-tail arrangement of recurring units, but he had not really furnished evidence of the structure. As Carothers once said, Staudinger had assigned the structure by pronouncement. He was as usual correct, and chemical evidence was developed to establish such structures. For example, when monovinyl methyl ketone polymerized, it could produce by head-to-head, tail-to-tail reaction a 1,4-diketone. By head-to-tail polymerization it would give a 1,5-diketone. These two types have different reactions. The study of the polymer proper showed that the polymer was a 1,5-diketone. In the case of polyvinyl chloride, a head-to-head, tail-to-tail polymerization would lead to a 1,2-dihalide compound, and a head-to-tail polymerization would lead to a 1,3-dihalide. [Pg.58]

Methylenesulphones are more acidic than the simple esters, ketones and cyano compounds and are more reactive with haloalkanes [e.g. 48-57] to yield precursors for the synthesis of aldehydes [53], ketones [53], esters [54] and 1,4-diketones [55] (Scheme 6.4). The early extractive alkylation methods have been superseded by solidtliquid phase-transfer catalytic methods [e.g. 58] and, combined with microwave irradiation, the reaction times are reduced dramatically [59]. The reactions appear to be somewhat sensitive to steric hindrance, as the methylenesulphones tend to be unreactive towards secondary haloalkanes and it has been reported that iodomethylsulphones cannot be dialkylated [49], although mono- and di-chloromethylsulphones are alkylated with no difficulty [48, 60] and methylenesulphones react with dihaloalkanes to yield cycloalkyl sulphones (Table 6.5 and 6.6). When the ratio of dihaloalkane to methylene sulphone is greater than 0.5 1, open chain systems are produced [48, 49]. Vinyl sulphones are obtained from the base-catalysed elimination of the halogen acid from the products of the alkylation of halomethylenesulphones [48]. [Pg.240]

Aus Artemisia campeslris laBt sich neben dem Dehydrofalcarinon das sehr instabile Diketon CII isolicren 42), wahrend in cincr Araliaceae, Panax Ginseng, eine weitere derartige Vinyl-Verbindung (CIII) vor-kommt (63) ... [Pg.78]

In the partial synthesis shown, there are two reagents, the a,P-unsaturated ketone methyl vinyl ketone and the 1,3-diketone 2-methylcyclohexa-1,3-dione. [Pg.398]

The vinyl silane 247 was unmasked to the ketone 250 by epoxidation, subsequent ring opening of the epoxide with HF in pyridine and concurrent cleavage of the THP and TBS protecting group (Scheme 39). The Stork-Jung annulation was completed through the treatment of the diketone 250 with sodium methoxide to mediate the intramolecular aldol con-... [Pg.126]

Application of this work to a domino process using 51 involves Michael addition of P-ketoesters [91], p-diketones or P-ketosulfones [92] to a,P-unsaturated ketones followed by an intramolecular aldol reaction provides highly functionalised cyclohexanone building blocks with up to four contiguous chiral centres. Gryko has also reported examples of this domino Michael/intramolecular aldol reaction in the coupling of 1,3-diketones and methyl vinyl ketone using L-proUne as catalyst [93],... [Pg.300]


See other pages where Vinylation diketones is mentioned: [Pg.72]    [Pg.209]    [Pg.25]    [Pg.479]    [Pg.482]    [Pg.88]    [Pg.167]    [Pg.566]    [Pg.1033]    [Pg.1222]    [Pg.1223]    [Pg.1417]    [Pg.187]    [Pg.139]    [Pg.176]    [Pg.395]    [Pg.334]    [Pg.123]    [Pg.618]    [Pg.788]    [Pg.238]   
See also in sourсe #XX -- [ Pg.124 , Pg.233 ]




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