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Allylic three-component coupling

Dithioacetal monoxides undergo Michael addition to acrylonitrile. The addition products are easily converted into y-ketonitriles 382 (equation 221). Benzenesulphinyl allylic carbanions 383 derived from the corresponding allylic sulphoxides react selectively at the y-position with a variety of cycloalkenones to give the l,4-adducts " (equation 222). Recently, Nokami and coworkers have synthesized some prostaglandin analogues via a three-component coupling process involving 1,4-addition of phenylsul-phinyl allylic carbanion (equation 223) . ... [Pg.322]

Nickel(O) catalysis has been utilized for a three-component coupling between an allylic electrophile, and alkyne, and AlMe3 or ZnMe2. This reaction takes place though the insertion of a 7r-nickel(ll) intermediate into the alkyne,... [Pg.329]

Palladium complexes effectively catalyze the three-component coupling reactions of CC>2461 or isocyanates,462 462 allyltributyltin, and allyl chloride to afford allyl 3-butenoate or iV-tosyl-iV-allyl-3-butenamides, respectively (Equations (104) and (105)). [Pg.466]

Allyl chlorides are readily deprotonated a to the halide by strong bases to give allyl carbenoids, which insert into organozirconocene chlorides to afford allyl- or pentadienyl-zirco-nocene chlorides (Scheme 3.23). These allylmetallic species are reactive towards carbonyl compounds, and so an efficient three-component coupling results [50]. [Pg.96]

Three-component coupling. Addition of AIBN to a benzene solution of an allylic stannane, an alkyl iodide, and an electron-deficient alkene initiates a radical process that results in 1,2-addition of the alkyl and allyl groups to the alkene.4 Example ... [Pg.16]

Blechert reported a skillful method of cross-enyne metathesis. Solid-supported alkyne 139 is reacted with alkene in the presence of Ic to give 140. For cleavage of 1,3-diene from solid-supported product 140 having an allyl acetate moiety, palladium-catalyzed allylic substitution is used. Thus, 140 is treated with Pd(PPh3)4 in the presence of methyl malonate to afford three-component coupling product 141 in good yield ... [Pg.195]

The regiochemistry of the reaction of unsymmetrical allylic esters was addressed by the introduction of a silyl group, equivalent to H, on the carbon of the allylic terminus. Eor example, 25 bearing a BuMe2Si group afforded 26 as the sole product in the three-component coupling. Since the subsequent protodesilylation of 26 selectively formed 27 (Scheme 6.6), this sequential procedure provides a practical method to control the regiochemistry in the substitution of unsymmetrical allylic substrates [13 c]. [Pg.116]

A partially soluble polyallylscandium triflamide ditriflate 45 was prepared and used to catalyze a three-component coupling reaction.67 An aldehyde, an aromatic amine, and an alkene were mixed in the presence of the catalyst to afford tetrahydroquinolines (equation 17). The catalyst was recovered from the reaction mixtures by precipitation with hexane and could be recycled without loss of activity. Another polymer-supported scandium catalyst was prepared by treating Nafion with scandium chloride to afford the Nafion-scandium catalyst 46.68 This catalyst was used in allylation reactions of carbonyl compounds by tetraallyltin (equation 18). It could be easily recovered by filtration and reused without appreciable loss of activity. [Pg.172]

This method is particularly effective with cyclic substrates, and the combined effects of intramolecular and intermolecular asymmetric induction give up to 76 1 (kf/ks) differentiation between enantiomers of a cyclic allylic alcohol. This kinetic resolution provides a practical method to resolve 4-hydroxy-2-cyclopentenone, a readily available but sensitive compound. Hydrogenation of the racemic compound at 4 atm H2 proceeds with kf/ks =11, and, at 68% conversion, gives the slow-reacting R enantiomer in 98% ee. The alcoholic product is readily convertible to its crystalline, enantiomerically pure fert-butyldimethylsilyl ether, an important building block in the three-component coupling synthesis of prostaglandins (67). [Pg.32]

This palladium-catalyzed three-component coupling reaction leading to the formation of aryl-substituted allylic amines was recently adapted to solid-phase synthesis (Scheme 8.23). Amines were chosen to attach to a solid support (Rink resin) in this three-component coupling process and were reacted with a variety of aryl halides and linear or cyclic non-conjugated dienes, the reaction being carried out at 100 °C for two days in the presence of palladium acetate and diisopropylethyl-amine. A wide variety of aryl-substituted allylic amines were then obtained after cleavage from the solid support by trifluoroacetic acid [60],... [Pg.236]

Palladium-mediated cydization based on the reactivity of o-alkynyl or alkenyl-phenyl isonitriles have been developed [105]. On the basis of their earlier studies on the three-component synthesis of allyl aryl cyanamides [106], Yamamoto and co-workers reported a palladium-catalyzed three-component coupling reaction of 2-alkynylisocyanobenzenes 122 with allyl methyl carbonate and trimethylsilylazide leading to N-cyanoindoles 125 [107]. One of the key steps of the proposed mechanism is the formation of 7i-allylpalladium carbodiimide 123 and its isomerization to rc-allylpalladium cyanamide complex 124 (Scheme 8.50). [Pg.253]

A wide variety of silyl ethers can be employed, leading to functionalized homo-allylic alcohols or ethers. This three-component coupling reaction, which generates in a single operation a range of homoallylic ethers, does not require the initial and independent synthesis of the acetal (or ketal) derived from 6. [Pg.406]

Ketones were also reacted under these conditions, leading to tertiary ethers. Thus, by mixing equimolar quantities of a carbonyl (aldehyde or ketone), allyl-silane and a silylated alcohol, followed by the addition of a catalytic amount of TMSOTf, homoallylic ethers can be obtain in good yields via a three-component coupling reaction (Scheme 13.22). [Pg.408]

The ruthenium-catalyzed olefin cross-metathesis to the preparation of functionalized allyl boronates has resulted in a one-pot three-component coupling procedure for the synthesis of functionalized homoallylic alcohols.617,618 The utility of the protocol was demonstrated in asymmetric allylboration using a tartrate ester (Equation (152)).617... [Pg.196]

Cyanosilylation of alkynes with Me3SiCN is effectively catalyzed by a PdCl2 complex.263 Its intramolecular version is valuable for the stereo-defined synthesis of tri- and tetrasubstituted alkenes.264 A Pd-catalyzed system effects an efficient three-component coupling of Me3SiCN, highly electron-deficient alkenes, and allyl chlorides (Equation (69))/ 3 The... [Pg.322]

We reported that the palladium-catalyzed three-component coupling reaction of the activated alkynes 41, allyl methyl carbonate 5b, and trimethylsilyl azide 42 gave the 2-allyl-1,2,3-triazoles 43. The reaction proceeds via the [3 + 2] cycloaddition of tt-allylpalladium azide 44 to the alkynes 41, followed by the formation of (-allyl)(r]5-triazoyl)-palladium 45 (Scheme 16) [51]. However, this method was limited only for activated alkynes. Synthesis of the triazoles 47 from the nonactivated terminal alkynes 46 was achieved by the three-... [Pg.98]

The selective synthesis of the 2-allyltetrazoles 55 by the three-component coupling reaction of the cyano compounds 54, allyl methyl carbonate 5b, and trimethylsilyl azide 42 was accomplished in the presence of Pd2(dba)3.CHCl3 and P(2-furyl)3 (Scheme 19) [55,56]. Most probably, the formation of (r)3-allyl)( ]5-tetrazoyl)-palladium complex 56 took place through [3 + 2] dipolar cycloaddition of 7r-allylpalladium azide 44 with the nitrile 54. The complex 56 thus formed would undergo reductive elimination to form the products 55. [Pg.100]

A related one-pot three component coupling reaction leading to allyli-dene tetrahydrofuran derivatives 80 and which combines a conjugate addition of a propargyl alcohol with an activated olefin and an in situ palladium-catalyzed carbopalladation-cyclization in the presence of a large excess of allyl chloride has been recently developed by Lu and Iiu (Scheme 31) [77]. The cyclization process is here initiated by addition of a catalytic amount of Pd(OAc)2 and in marked contrast with the above-discussed reactions, a catalytic cycle involving divalent palladium proceeds in the reaction. In this process, the ester enolate formed in the Michael addition undergoes... [Pg.135]

Tandem insertion of aUyl carbenoids and aldehydes affords some organic compounds resnlting from a three-component coupling reaction. The most extensively studied application of this methodology is the insertion of allyl carbenoids into zirconacycles and subsequent elaboration of the formed allylzirconocenes with electrophiles (Scheme 39). ... [Pg.5314]

A palladium(II)-catalyzed three component coupling reaction was established by Lu, who performed the intermolecular carbopalladation involving propargyl alcohols and alkenes, and this was followed consecutively by allylic chloride insertion to the C-Pd bond and its quenching by p-heteroatom elimination in the presence of an excess of chloride ions. An example is shown below <03TL467>. [Pg.178]

See other pages where Allylic three-component coupling is mentioned: [Pg.571]    [Pg.322]    [Pg.38]    [Pg.700]    [Pg.877]    [Pg.88]    [Pg.691]    [Pg.969]    [Pg.161]    [Pg.191]    [Pg.235]    [Pg.236]    [Pg.77]    [Pg.1365]    [Pg.1367]    [Pg.186]    [Pg.218]    [Pg.223]    [Pg.699]    [Pg.102]    [Pg.106]    [Pg.106]    [Pg.419]    [Pg.128]    [Pg.50]    [Pg.1365]    [Pg.1367]    [Pg.111]   
See also in sourсe #XX -- [ Pg.116 ]



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Allylic coupling

Coupling components

Three coupling

Three-component

Three-component coupling

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