Ketone-alkene coupling reactions

Ketone-Alkene Coupling Reactions. Ketyl radicals derived fromreduction of ketones or aldehydes with Sml2 may be coupled both inter- and intramolecularly to a variety of alkenic species. Excellent diastereoselectivities are achieved with intramolecular coupling of the ketyl radical with Q ,/3-unsaturated esters. In the following example, ketone-alkene cyclization took place in a stereocontrolled manner established by chelation of the resulting Sm(III) species with the hydroxyl group incorporated in the substrate (eq 22). ... 

Intermolecular ketyl alkene coupling reactions have been incorporated into a cascade that ultimately affords medium sized rings [58]. Specifically, chloroalkyl ketones react with acrylates, whereupon chloroalkyl lactones are formed in situ. Photolysis of these intermediates in the presence of excess Sml2 initiates an intramolecular nucleophilic acyl substitution reaction between the halide and the lactone, creating the medium-sized ring (Eq. 50). 

The hydrosi(ly)lations of alkenes and alkynes are very important catalytic processes for the synthesis of alkyl- and alkenyl-silanes, respectively, which can be further transformed into aldehydes, ketones or alcohols by estabhshed stoichiometric organic transformations, or used as nucleophiles in cross-coupling reactions. Hydrosilylation is also used for the derivatisation of Si containing polymers. The drawbacks of the most widespread hydrosilylation catalysts [the Speier s system, H PtCl/PrOH, and Karstedt s complex [Pt2(divinyl-disiloxane)3] include the formation of side-products, in addition to the desired anh-Markovnikov Si-H addition product. In the hydrosilylation of alkynes, formation of di-silanes (by competing further reaction of the product alkenyl-silane) and of geometrical isomers (a-isomer from the Markovnikov addition and Z-p and -P from the anh-Markovnikov addition. Scheme 2.6) are also possible. 

Dialkyl(trimethylsilyl)phosphines undergo 1,4-addition to a,/3-unsaturated ketones and esters to give phosphine-substituted silyl enol ethers and silyl ketene acetals, respectively. A three-component coupling reaction of a silylphosphine, activated alkenes, and aldehydes in the presence of a catalytic amount of GsF affords an aldol product (Scheme 76).290 291... 

Free-radical-mediated four-component coupling reactions are rare. However, when an allyltin-mediated radical carbonylation is conducted in the presence of electron-deficient alkenes, four-component coupling reactions take place efficiently to give good yields of p-functionalized <5,fi-unsaturated ketones [40]. The wide scope of this four-component coupling reaction is noteworthy Primary, secondary, and tertiary alkyl bromides and iodides can be used as well as aromatic and vinylic halides. A variety of electron-deficient alkenes, such as methyl vinyl ketone, ethyl acrylate, acrolein, acrylonitrile, and vinyl sulfone, can be used as the acyl radical trap (Scheme 6.23). Fluorous allyltin compounds can also be used in four-component coupling reactions [41]. 

A haloalkene that contains a stereogenic C=C double bond can usually be coupled with alkenes via the Heck reaction without isomerization. This is illustrated with the three reaction pairs in Figure 16.36. As can be seen, both the as- and the /raw-configured iodoalkenes react with acrolein or methyl vinyl ketone or acrylic acid methyl ester with complete retention of the C=C double bond configuration. These coupling reactions are thus stereoselective and— when considered as a pair—stereospecific. 

The ketyl radical anion intermediates can be exploited in carbon-carbon bond-forming reactions. Intermolecular and intramolecular pinacol couplings between the carbonyl groups of ketones and aldehydes are well known (Chapter 5, Section 5.1), as are intermolecular and intramolecular carbonyl-alkene couplings (Chapter 5, Section 5.2). 

Balu et used Tyrlik s reagent (TiCl3, Mg, THF) for the coupling reaction of aldehydes and ketones. However, in the presence of pyridine or hydroxy auxiliary (such as catechol, ethylene glycol or mannitol) the main product found is the diol and not the alkene. 

The 1,3-dipolar cycloaddition of nitrones to alkenes is a useful route to isoxazolidine derivatives, the reductive cleavage of which furnishes a range of compounds such as fi-hydroxy ketones, /S-amino alcohols, etc. [29]. Although Lewis acids are known to promote the cycloaddition [29,30], some nitrones, especially aliphatic nitrones, are unstable under these conditions and lower yields are sometimes obtained. The three-component coupling reaction of benzaldehyde, A/-benzylhydroxylamine, and A-phe-nylmaleimide proceeded smoothly in the presence of a catalytic amount of Sc(OTf)3, to afford the corresponding isoxazolidine derivative in a good yield with high diaster-eoselectivity (Eq. 12) [31]. 

Kobayashi et al. found that lanthanide triflates were excellent catalysts for activation of C-N double bonds —activation by other Lewis acids required more than stoichiometric amounts of the acids. Examples were aza Diels-Alder reactions, the Man-nich-type reaction of A-(a-aminoalkyl)benzotriazoles with silyl enol ethers, the 1,3-dipolar cycloaddition of nitrones to alkenes, the 1,2-cycloaddition of diazoesters to imines, and the nucleophilic addition reactions to imines [24], These reactions are efficiently catalyzed by Yb(OTf)3. The arylimines reacted with Danishefsky s diene to give the dihydropyridones (Eq. 14) [25,26], The arylimines acted as the azadienes when reacted with cyclopentadiene, vinyl ethers or vinyl thioethers, providing the tet-rahydroquinolines (Eq. 15). Silyl enol ethers derived from esters, ketones, and thio-esters reacted with N-(a-aminoalkyl)benzotriazoles to give the /5-amino carbonyl compounds (Eq. 16) [27]. The diastereoselectivity was independent of the geometry of the silyl enol ethers, and favored the anti products. Nitrones, prepared in situ from aldehydes and N-substituted hydroxylamines, added to alkenes to afford isoxazoli-dines (Eq. 17) [28]. Addition of diazoesters to imines afforded CK-aziridines as the major products (Eq. 18) [29]. In all the reactions the imines could be generated in situ and the three-component coupling reactions proceeded smoothly in one pot. 

Another important coupling reaction uses esters as the electron-accepting species and leads to a-hydroxy ketones (acyloin coupling). Sodium, potassium (less frequently) or sodium-potassium alloys are commonly used as electron donors in nonpolar solvents such as toluene or xylene. The first detectable reaction intermediate after the primary reductive step is the enediolate which can be trapped with tri-alkylsilyl chloride. This method is widely used to synthesize highly nucleophilic alkenes and/or protected acyloins (Scheme 12) [50, 51]. 

Unsymmetrical alkenes can be prepared from a mixture of two ketones in a cross-coupling reaction, if one is in excess.An aldehyde and a ketone were cross-coupled using Yb(OTf>3, for example. The mechanism consists of initial coupling of two radical species to give a 1,2-dioxygen compound (a titanium pina-colate), which is then deoxygenated. ... 

A much more highly diastereoselective process results when alkenic 3-keto ester and 3-ketoamide substrates can be utilized in the ketone-alkene reductive coupling process. Both electron deficient and unactivated alkenes can be utilized in the reaction (equations 65 and 66). In such examples, one can take advantage of chelation to control the relative stereochemistry about the developing hydroxy and car-boxylate stereocenters. Favorable secondary orbital interactions between the developing methylene radical center and the alkyl group of the ketyl,and/or electrostatic interactions in the transition state account for stereochemical control at the third stereocenter. 

Curiously, the relative stereochemistry between the carboxylate and the adjacent hydroxy group in the Sml2-mediated intramolecular pinacolic coupling reaction is opposite to that observed in the intramolecular Barbier reactions and ketone-alkene reductive coupling reactions discussed previously (compare... 

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