Electrophilic reactions palladium-catalyzed cross-coupling

Other interests in the area of phosphorus acids and their derivatives has centered on the following subjects synthesis of new ligands and catalysts for known reactions, synthesis of supramolecular logic gates, use of phosphates as electrophiles in palladium-catalyzed cross-coupling reactions, synthesis of phosphate based dendrimers and conjugates with oligosaccharides. 

The late Professor J. K. Stille pioneered the development of a very effective and versatile palladium-mediated C-C bond forming method - the palladium-catalyzed cross-coupling of organic electrophiles with organostannanes.48 This process continues to enjoy much success in organic synthesis because it proceeds in high yields under mild reaction conditions and because it tolerates a... 

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... 

Netherton M, Fu GC (2005) Palladium-catalyzed Cross-Coupling Reactions of Unactivated Alkyl Electrophiles with Organometallic Compounds. 14 85-108 Neumann H, see Jacobi von Wangelin A (2006) 18 207-221... 

Trialkylstannyl groups can also be replaced by reactive electrophiles in certain cases, but most commonly stannylated azaheterocycles are employed in palladium catalyzed cross-coupling reactions [85PAC1771 86AG(E)508 92S413]. For example, trimethylstannylpyridines can be reacted with bromopyridines in the presence of catalytic amounts of tetrakis-(triphenylphosphine)palladium to give a variety of different bipyridines (Scheme 158)(86S564). 

The [2,3- ]> [2,3- ]. and [i,Z-b] isomers of 2,3-disubstituted furopyridines can be obtained from alkynes and o-iodoacetoxypyridines by a palladium-catalyzed cross-coupling reaction followed by an electrophilic iodocyclization reaction or a palladium-catalyzed cyclization in the presence of CO, as illustrated in Scheme 32 for [2,3-3] and [3,2-3] derivatives. When the pyridine ring contains strongly electron-withdrawing substituents such as carboethoxy, the reaction proceeded smoothly with benzyloxyalkynylpyridines <20020L2409>. 

When the first electrophile was not a ketone or an aldehyde, as illustrated for the reaction of 276 with crotonyl chloride, the intermediate chelated alkenylmetal 278 could also be subjected to iodinolysis or palladium-catalyzed cross-coupling reactions with aryl and alkenyl iodides in the presence of a stoichiometric amount of CuBr as a promotor as well as a polar cosolvent such as IV, IV-di methyl acetamide (DMA) (equation 131)165 166. 

Stille, J. K. The Palladium-Catalyzed Cross-Coupling Reactions of Organo-tin Reagents with Organic Electrophiles, Angew. Chem. Int. Ed. Eng. 1986, 25, 508. 

A. R. Martin, Y. Yang, Palladium Catalyzed Cross-Coupling Reactions of Organoboronic Acids with Organic Electrophiles "Acta Chem. Scand. 1993, 47, 221-230. 

Diborons and HBpin have been found to act as the boron nucleophiles in the presence of a base for the palladium-catalyzed cross-coupling reaction of organic electrophiles. Both reactions provide a simple and direct method for the borylation of organic halides and triflates. 

The mechanism for this palladium-catalyzed cross-coupling reaction comprises the initial oxidative addition of the electrophile 37 to the palladium(O) catalyst followed by transmetallation of triethylsilane to yield the corresponding bis(organo)palladium(II) complex 39, which then undergoes reductive elimination to form the alkene 40 and to regenerate the palladium(O) catalyst. 

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