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Coupling reactions palladium catalysed

Heck-, Suzuki- and Stille-type Couplings - The Heck reaction, palladium-catalysed coupling of aryl or vinyl halides with alkenes or alkynes, is an extremely useful synthetic method. Only recently have Heck reactions been performed in aqueous media, probably due to the perception that water must be carefully... [Pg.166]

Primary phosphines are unpleasant and toxic reagents. They can be prepared from phosphonous halides, RPCI2, using LiAlILt. As is the case for secondary phosphines, easy access to pure phosphonous halides are required to make this route efficient. It has been found that compound 28 can be reduced to primary phosphine 29 using a mixture of UAIH4 and Me3SiCl (Scheme 13).31 This procedure appears useful, as phosphinates of type RP(0)(0Et)2 are often robust compounds that can be prepared in a number of ways. (e.g. Michaelis-Arbusov reaction, palladium-catalysed coupling of diethyl phosphite with aryl bromides, etc.)... [Pg.27]

Aryltrimethyl- or tri- -butylstaimanes as common Stille reagents are also successfully homo-coupled under palladium catalysed reactions in the presence of ethyl 2,3-dibromophenylpropionate (443) [26], or more conveniently by oxidation with copper(I) salts, e.g. CuCl [27], or copper(II) salts, e.g. Cu(N03)2 3H20 [28,29], which proceed smoothly at room temperature in tetrahydrofuran or DMF to afford symmetrical biaryls in excellent 3uelds. The Cu(N03)2-mediated homo-coupling works well also with diaryldimethyl(or -butyl)stannanes [30]. Moreover, the reaction can be accomplished with a catalytic amount of copper(II) chloride or manganese(II) bromide (10 mol%) in the presence of iodine as stoichiometric oxidant [31]. For example, compound 443, acting as an oxidant, converts the phenyltri-n-butylstannane (184) to biphenyl (8) in 86% yield [26], Scheme 11. [Pg.252]

Coupling Reactions. Palladium pivalate is an effective catalyst for mild and efficient direct arylation reactions. One account described the intramolecular arylation phenolic ethers (eq 1). Initial optimization with Pd(OAc)2 in conjunction with electron-deficient phosphines led to the desired biphenyl in low yield. Upon the addition of carboxylic acid additives, the yield improved markedly with the optimal additive being pivalic acid. Indeed it was determined that the additive was not needed when Pd(OPiv)2 was errqtloyed as a catalyse although improved yields were observed when the title compound was used in conjunction with the acid additive. The role of the pivalate is believed to be that of a proton shuttle in a concerted metallation-deprotonation (CMD) sequence. A further advantage of using Pd(OPiv)2 was the rate enhancement of the arylation with most reactions complete in less than 6 h (vs. 12 or more hours with Pd(OAc)2). The catalyst was applied to a range of electron-rich and -deficient arenes with good to excellent yields. [Pg.517]

Lithiation at C2 can also be the starting point for 2-arylatioii or vinylation. The lithiated indoles can be converted to stannanes or zinc reagents which can undergo Pd-catalysed coupling with aryl, vinyl, benzyl and allyl halides or sulfonates. The mechanism of the coupling reaction involves formation of a disubstituted palladium intermediate by a combination of ligand exchange and oxidative addition. Phosphine catalysts and salts are often important reaction components. [Pg.98]

There are also palladium-catalysed procedures for allylation. Ethyl 3-bromo-l-(4-methylphenylsulfonyl)indole-2-carboxylate is allylated at C3 upon reaction with allyl acetate and hexabutylditin[27], Ihe reaction presumably Involves a ir-allyl-Pd intermediate formed from the allyl acetate, oxidative addition, transmetallation and cross coupling. [Pg.108]

Indoles with carbocyclic halogen or triflate substituents are potential starting materials for vinylation, arylation and acylation via palladium-catalysed pro-cesses[l]. Indolylstannanes. indolylzinc halides and indolylboronic acids are also potential reactants. The principal type of substitution which is excluded from such coupling reactions is alkylation, since saturated alkyl groups tend to give elimination products in Pd-catalysed processes. [Pg.141]

Carbon-carbon bond formation reactions and the CH activation of methane are another example where NHC complexes have been used successfully in catalytic applications. Palladium-catalysed reactions include Heck-type reactions, especially the Mizoroki-Heck reaction itself [171-175], and various cross-coupling reactions [176-182]. They have also been found useful for related reactions like the Sonogashira coupling [183-185] or the Buchwald-Hartwig amination [186-189]. The reactions are similar concerning the first step of the catalytic cycle, the oxidative addition of aryl halides to palladium(O) species. This is facilitated by electron-donating substituents and therefore the development of highly active catalysts has focussed on NHC complexes. [Pg.14]

Negishi E, Tan Z (2005) Diastereoselective, Enantioselective, and Regioselective Carbo-alumination Reactions Catalyzed by Zirconocene Derivatives. 8 139-176 Netherton M, Fu GC (2005)Palladium-catalyzed Cross-Coupling Reactions of Unactivated Alkyl Electrophiles with Organometallic Compounds. 14 85-108 NicolaouKC, KingNP, He Y (1998) Ring-Closing Metathesis in the Synthesis of EpothUones and Polyether Natural Products. 1 73-104 Nishiyama H (2004) Cyclopropanation with Ruthenium Catalysts. 11 81-92 Noels A, Demonceau A, Delaude L (2004) Ruthenium Promoted Catalysed Radical Processes toward Fine Chemistry. 11 155-171... [Pg.285]

Another methodology that is widely used for C-C bond formation is the Heck coupling (Heck, 1985 T.suji, 1995). The Heck reaction involves the palladium-catalysed arylation of olefinic double bonds (Eqn. (12)) and provides an alternative to Friedel-Crafts reactions for attaching carbon fragments to aromatic rings. [Pg.41]

A closely related reaction that is currently receiving much attention is the palladium-catalysed Suzuki coupling of arylboronic acids with aryl halides (Fu and Littke, 1998). For example, this technology has recently been applied by Clariant workers for the production of o-tolyl-benzonitrile (Eqn. (13)), an intermediate to a series of so-called angiotensin-II antagonists, a new class of antihypertensive drugs (Bernhagen, 1998). [Pg.42]

In 1999, Ikeda et al. reported a new type of sulfur-oxazoline ligands with an axis-fixed or -unfixed biphenyl backbone prepared in good yields by coupling reactions of methoxybenzene derivatives substituted with a chiral oxazoline and a sulfur-containing Grignard reagent. These ligands were subsequently evaluated for the test palladium-catalysed asymmetric allylic alkylation... [Pg.28]

A tandem palladium-catalysed ort/io-alkylation/intramolecular Heck reaction coupling sequence was used effectively to access in fair yields the tetrahydro 1-benzoxepines 67 from the iodoaryl precursor 66 and the appropriate alkyl bromide. The norbornene plays a relay role in the proposed reaction cycle <06JOC4937>... [Pg.446]

A useful method for the preparation of functionalised thiazoles has been described. Palladium catalysed cross coupling reactions between 4-thiazolyl-5-acetyl triflates 36 and alkynes afforded 4-alkynyl-5-acetylthiazoles 37 in good yields (56-82%). If 37 is then treated with ammonia in methanol, thiazolo[5,4-c]pyridines 39 are formed, probably via the intermediate imine 38 which then undergos a regioselective 6-endo dig cyclisation <99EJOC3117>. [Pg.193]

Vinyl ethers stannylated in the a-position undergo palladium-catalysed coupling with aryl hlides, as shown, for example, in reaction 64312 and 65313a. [Pg.416]

Herrmann WA, Brossmer C, Reisinger CP, Riermaier T, Ofele K, Beller M (1997) Coordination chemistry and mechanisms of metal-catalyzed C-C coupling reactions. Part 10. Palladacycles efficient new catalysts for the Heck vinylation of aryl halides. Chem Eur J 3 1357-1364 Iyer S, Jayanthi A (2001) Acetylferrocenyloxime palladacycle-catalyzed Heck reactions. Tetrahedron Lett 42 7877-7878 Iyer S, Ramesh C (2000) Aryl-Pd covalently bonded palladacycles, novel amino and oxime catalysts di- x-chlorobis(benzaldehydeoxime-6-C,AT)dipalla-dium(II), di- x-chlorobis(dimethylbenzylamine-6-C,A)dipalladium(II) for the Heck reaction. Tetrahedron Lett 41 8981-8984 Jeffery T (1984) Palladium-catalysed vinylation of organic halides under solid-liquid phase transfer conditions. J Chem Soc Chem Commun 1287-1289 (b) idem,... [Pg.97]

Methods based on palladium catalysed cross-coupling reactions. [Pg.293]

See other pages where Coupling reactions palladium catalysed is mentioned: [Pg.407]    [Pg.407]    [Pg.6]    [Pg.1]    [Pg.336]    [Pg.83]    [Pg.111]    [Pg.198]    [Pg.202]    [Pg.431]    [Pg.73]    [Pg.277]    [Pg.166]    [Pg.172]    [Pg.335]    [Pg.433]    [Pg.438]    [Pg.439]    [Pg.199]    [Pg.141]    [Pg.17]    [Pg.271]    [Pg.272]    [Pg.273]    [Pg.275]    [Pg.277]    [Pg.279]    [Pg.281]    [Pg.283]    [Pg.285]    [Pg.286]   
See also in sourсe #XX -- [ Pg.234 , Pg.249 , Pg.285 , Pg.469 ]

See also in sourсe #XX -- [ Pg.234 , Pg.249 , Pg.285 , Pg.469 ]



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