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Vinylcyclopropanes, 1,5-addition

As was shown in the preceding section, 1,2,2-trimethylbicyclobutane decomposes to give the corresponding butadiene and vinylcyclopropane. Addition of a methyl group at the second bridgehead position effects a loss of the stereospecificity, as shown by the fact that the two dienes were obtained in a nearly 1 1 ratio (equation 99). In addition, no vinylcyclopropane was observed. [Pg.1164]

The reaction of dihalocarbenes with isoprene yields exclusively the 1,2- (or 3,4-) addition product, eg, dichlorocarbene CI2C and isoprene react to give l,l-dichloro-2-methyl-2-vinylcyclopropane (63). The evidence for the presence of any 1,4 or much 3,4 addition is inconclusive (64). The cycloaddition reaction of l,l-dichloro-2,2-difluoroethylene to isoprene yields 1,2- and 3,4-cycloaddition products in a ratio of 5.4 1 (65). The main product is l,l-dichloro-2,2-difluoro-3-isopropenylcyclobutane, and the side product is l,l-dichloro-2,2-difluoro-3-methyl-3-vinylcyclobutane. When the dichlorocarbene is generated from CHCl plus aqueous base with a tertiary amine as a phase-transfer catalyst, the addition has a high selectivity that increases (for a series of diolefins) with a decrease in activity (66) (see Catalysis, phase-TRANSFEr). For isoprene, both mono-(l,2-) and diadducts (1,2- and 3,4-) could be obtained in various ratios depending on which amine is used. [Pg.465]

In addition to cyclopentenes, other types of compounds may be formed upon heating of vinylcyclopropanes. For example pentadienes 6a/b may be formed by a competitive route from a diradical intermediate. [Pg.283]

The vinylcyclopropane rearrangement is an important method for the construction of cyclopentenes. The direct 1,4-addition of a carbene to a 1,3-diene to give a cyclopentene works only in a few special cases and with poor yield. The desired product may instead be obtained by a sequence involving the 1,2-addition of a carbene to one carbon-carbon double bond of a 1,3-diene to give a vinylcyclopropane, and a subsequent rearrangement to yield a cyclopentene ... [Pg.283]

Stansbury and Bailey. A review by Colombam on addition-fragmentation processes is also relevant. Monomers used in ring-opening are typically vinyl (e.g. vinylcyclopropane - Scheme 4.20 Section 4.4.2.1) or methylene substituted cyclic compounds (e.g. ketene acetals - Section 4.4.2.2) where addition to the double bond is followed by p-scission. [Pg.195]

The low yields obtained with extremely strong bases, LDA and NaH, suggested the formation of another reactive intermediate. Therefore, the reaction was carried out in the presence of methyl acrylate as a Michael acceptor and afforded a new adduct 35 in addition to the expected vinylcyclopropane derivative 33 (see Equation 8). [Pg.487]

The photoindueed 1,7-cycloaddition of carbon monoxide across the divinyl-cyclopropane derivative 32 yields the two cyclic dienyl ketones 34, via the ferracyclononadiene intermediate 33 [18]. (Scheme 11) cyclopentene rearrangement. The dienylcyclopropane 35 is capable of forming the complex 36, followed by ring enlargement to 37 [19]. 1,1-Dicyclopropylethylene 29 is also converted to the 1-cyclopropyl-1-cyclopentene 38. The additional functionality of vinylcyclopropanes is necessary to serve as a 7t-donor... [Pg.111]

An interesting example of the situation in which the preferred addition site does not lead to the preferred ring size has been provided by Miura and coworkers with the extended vinylcyclopropane rearrangement of substrate 2164. Formation of vinylcyclopentyl derivative 22 requires the addition of the triphenylstannyl radical to the unsubstituted terminus... [Pg.633]

Eq. 12) position of the cyclopropyl ring dramatically lowers the activation energy of this process 12). In addition charge accelerated vinylcyclopropane rearrangements... [Pg.12]

The isopropenyl side chain may derive by elimination of a tertiary alcohol or ether as in 202. Such a masking of the olefin avoids a possible competing vinylcyclopropane rearrangement. The correspondence of the cyclopentene of 202 with the vinylcyclopropane in 203 now becomes obvious. The presence of the dimethylcarbinol side chain now also offers the opportunity for its introduction by addition of a cyclopropyl anion to acetone. The feasibility of creating such an anion by fluoride initiated desilylation... [Pg.78]

Radical [3 + 2 cycloaddition. Cyclopentanes can be prepared by addition of alkenes across vinylcyclopropanes catalyzed by phenylthio radicals formed from (C6H5S)2 and AIBN. A Lewis acid such as A1(CH3)3 can increase the rate and the stereoselectivity of this radical initiated cycloaddition. Thus the combination of the vinylcyclopropyl ester 1 with f-butyl acrylate (2) provides the four possible cyclo-... [Pg.155]

For the addition of ethylene, EtOAc as solvent was particularly advantageous and gave 418 in 60% yield (Scheme 6.86). The monosubstituted ethylenes 1-hexene, vinylcyclohexane, allyltrimethylsilane, allyl alcohol, ethyl vinyl ether, vinyl acetate and N-vinyl-2-pyrrolidone furnished [2 + 2]-cycloadducts of the type 419 in yields of 54—100%. Mixtures of [2 + 2]-cycloadducts of the types 419 and 420 were formed with vinylcyclopropane, styrene and derivatives substituted at the phenyl group, acrylonitrile, methyl acrylate and phenyl vinyl thioether (yields of 56-76%), in which the diastereomers 419 predominated up to a ratio of 2.5 1 except in the case of the styrenes, where this ratio was 1 1. The Hammett p value for the addition of the styrenes to 417 turned out to be -0.54, suggesting that there is little charge separation in the transition state [155]. In the case of 6, the p value was determined as +0.79 (see Section 6.3.1) and indicates a slight polarization in the opposite direction. This astounding variety of substrates for 417 is contrasted by only a few monosubstituted ethylenes whose addition products with 417 could not be observed or were formed in only small amounts phenyl vinyl ether, vinyl bromide, (perfluorobutyl)-ethylene, phenyl vinyl sulfoxide and sulfone, methyl vinyl ketone and the vinylpyri-dines. [Pg.317]

The palladium-catalyzed reaction of iodobenzene and an allenyl malonate provided vinylcyclopropane in a highly regioselective manner (Scheme 16.7) [11, 12]. A jT-allylpalladium complex, generated by the addition of PhPdl to a 2-allenyl malonate, can be trapped by an internal malonate anion to afford a vinylcyclopropyl derivative. The site selectivity in this cyclization is dependent on the nature of the entering RX groups, catalytic systems involving phosphine ligands, solvents and bases. [Pg.927]

Vaska s complex catalyzed the transformahon of aUenylcyclopropane into 2-alkenylidenecyclohex-3-enone under conditions of pressurized CO (Scheme 11.25) [38]. In this reaction, the jr-coordination to internal oleflnic moiety of the aUene brings the metal closer to the cyclopropane ring. Release of the cyclopropane ring strain then facilitates the oxidative addition of vinylcyclopropane moiety along with C-C bond cleavage, such that metallacyclohexene is obtained a subsequent carbonyl insertion and reductive elimination then provides the product Hence, the reaction can be recognized as a [5+1] cycloaddition of vinylcyclopropane and CO. [Pg.288]

In general, radical cations of alkenes or cyclopropanes produce nonconjugated radicals, while those of dienes give rise to allyl radicals, and those of vinylcyclopropane or vinylcyclobutane systems generate either allylic or nonconjugated radicals with an additional element of unsaturation. In contrast to the most thoroughly characterized nucleophilic substitution of appropriate neutral molecules. [Pg.290]

Quite a wide variety of alkenes have been subjected to this carbene addition [148] the products are multifunctional small ring molecules which may not only be reduced to simple vinylcyclopropanes, but to various substituted cyclopropyl-acetylenes and cyclopropylideneacetates which are particularly useful and versatile building blocks for organic synthesis [155],... [Pg.59]

The formal addition of hydrogen atom to the terminal double bond of vinylcyclopropanes and of 1,5-diene systems under triplet oxygen provides another sequential... [Pg.223]

Substitutive spiroannulation of 1-donor-substituted vinylcyclopropanes initiated by electrophiles gives access to a wide range of spirobicyclic and spirotricyclic systems. Generally, the electrophile undergoes addition from the sterically less demanding face and the rearrangement proceeds through back-side attack. The net result is a turns addition. [Pg.276]

See other pages where Vinylcyclopropanes, 1,5-addition is mentioned: [Pg.279]    [Pg.1236]    [Pg.88]    [Pg.196]    [Pg.22]    [Pg.108]    [Pg.354]    [Pg.253]    [Pg.256]    [Pg.192]    [Pg.764]    [Pg.14]    [Pg.79]    [Pg.31]    [Pg.97]    [Pg.318]    [Pg.33]    [Pg.34]    [Pg.594]    [Pg.205]    [Pg.927]    [Pg.57]    [Pg.205]    [Pg.276]   
See also in sourсe #XX -- [ Pg.16 , Pg.354 ]



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