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Alkyne-carbonyl coupling reactions

Templeton and co-workers used the alkylidyne-carbonyl coupling reaction shown in Eq. (156) for the synthesis of the asymmetric alkyne com-... [Pg.296]

The radicals R" generated by reduction of the halides RX (R = alkyl or aryl X = Cl, Br, I, etc.) by Sml2 (see Chap. 12.4.2) can be reduced (formation of RH by trapping an H atom from the solvent) or couple onto a carbonyl (aldehydes, ketones Barbier reaction), an olefin or an alkyne. For coupling reactions, the competitive reduction to RH indicated above must be avoided. The intramolecular coupling with formation of 5- or 6-atom rings, of synthetic interest, are promoted by the entropic factor. ... [Pg.516]

Huoboric acid is employed as a chemical reagent and catalyst in different organic syntheses like alkyne-carbonyl coupling [59], Biginelli reactions [60] and Balz-Schiemann reactions. [Pg.212]

Transition metal-catalyzed transformations are of major importance in synthetic organic chemistry [1], This reflects also the increasing number of domino processes starting with such a reaction. In particular, Pd-catalyzed domino transformations have seen an astounding development over the past years with the Heck reaction [2] - the Pd-catalyzed transformation of aryl halides or triflates as well as of alkenyl halides or triflates with alkenes or alkynes - being used most often. This has been combined with another Heck reaction or a cross-coupling reaction [3] such as Suzuki, Stille, and Sonogashira reactions. Moreover, several examples have been published with a Tsuji-Trost reaction [lb, 4], a carbonylation, a pericyclic or an aldol reaction as the second step. [Pg.359]

Recently, four-component coupling reactions of aldehydes, alkynes, dienes, and dimethylzinc catalyzed by a nickel complex have been reported (Equation (78)).435 Similarly, l,c< -dienynes react with carbonyl compounds and dimethylzinc in the presence of an Ni catalyst to afford the corresponding cyclized products. [Pg.460]

Ir-diphosphine complexes have been shown to catalyze a number of potentially interesting C—C coupling reactions [41]. Special mention should be made of the various transformations of alkynes (cycloaddition, isomerization, dimerization, alkynylation), selected aldol and carbonylation reactions, even though the synthetic potential of some of these reactions has not been explored. [Pg.12]

By contrast, in 2000 Shibata reported the Ir-catalyzed enantioselective Pauson-Khand-type reaction of enynes [30aj. The chiral Ir catalyst was readily prepared in situ from [lrCl(cod)]2 and tolBINAP (2,2 -bis(di-p-tolylphosphino)-l,T-binaphthyl), both of which are commercially available and air-stable, and the reaction proceeded under an atmospheric pressure of carbon monoxide. The Ir-catalyzed carbonylative coupling had a wide generality in enynes with various tethers (Z), substituents on the alkyne terminus (R ) and the olefinic moiety (R ). In the case of less-reactive enynes, a lower partial pressure of carbon monoxide achieved a higher yield and ee-value (Table 11.1) [30b]. [Pg.285]

Cross-coupling reactions 5-alkenylboron boron compounds, 9, 208 with alkenylpalladium(II) complexes, 8, 280 5-alkylboron boron, 9, 206 in alkyne C-H activations, 10, 157 5-alkynylboron compounds, 9, 212 5-allylboron compounds, 9, 212 allystannanes, 3, 840 for aryl and alkenyl ethers via copper catalysts, 10, 650 via palladium catalysts, 10, 654 5-arylboron boron compounds, 9, 208 with bis(alkoxide)titanium alkyne complexes, 4, 276 carbonyls and imines, 11, 66 in catalytic C-F activation, 1, 737, 1, 748 for C-C bond formation Cadiot-Chodkiewicz reaction, 11, 19 Hiyama reaction, 11, 23 Kumada-Tamao-Corriu reaction, 11, 20 via Migita-Kosugi-Stille reaction, 11, 12 Negishi coupling, 11, 27 overview, 11, 1-37 via Suzuki-Miyaura reaction, 11, 2 terminal alkyne reactions, 11, 15 for C-H activation, 10, 116-117 for C-N bonds via amination, 10, 706 diborons, 9, 167... [Pg.87]

A nickel-catalysed alkyne insertion between the carbonyl carbon and the -carbon of the cyclobutanone was achieved by combining a ketone-alkyne coupling reaction with a /3-carbon elimination process (Scheme 79).121 The reaction uses cyclobutanones as a four-carbon unit and provides access to substituted cyclohexenones. [Pg.471]

Alkyne-alkene carbonylative coupling. Intramolecular carbonylative coupling of dialkynes catalyzed by Fe(CO)3 provides a route to cyclopentadienones (equation I). The more difficult carbonylative alkyne-alkene coupling to provide cyclopen-tenones (Pauson-Khand reaction) can also be effected with Fe(CO)s, but in modest yield. In an improved coupling, acetone is treated with Fe2(CO)9 to form Fe-... [Pg.351]

Alkyne coupling reactions under Pd/Cu conditions have been extended to other functional groups. Allenes couple with alkynes without incident (equation 143)277, as do dithio-carbonyl chlorides and thiocarbamoyl chlorides278. Alkynyl chloride cross-couple with alkynes in at least some cases, to form diynes279. [Pg.1319]


See other pages where Alkyne-carbonyl coupling reactions is mentioned: [Pg.457]    [Pg.457]    [Pg.22]    [Pg.30]    [Pg.5436]    [Pg.1023]    [Pg.5435]    [Pg.317]    [Pg.219]    [Pg.296]    [Pg.206]    [Pg.1039]    [Pg.21]    [Pg.25]    [Pg.48]    [Pg.172]    [Pg.373]    [Pg.130]    [Pg.105]    [Pg.112]    [Pg.112]    [Pg.128]    [Pg.110]    [Pg.94]    [Pg.229]    [Pg.201]    [Pg.539]    [Pg.366]    [Pg.378]    [Pg.207]    [Pg.1276]    [Pg.13]   


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Alkyne coupling

Alkynes carbonyl

Alkynes carbonylation

Alkynes carbonylations

Alkynes, carbonylative coupling

Carbonyl coupling reaction

Carbonylation alkyne carbonylations

Carbonylative coupling

Coupling reactions carbonylative

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