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Carbon-heteroatom coupling mechanisms

V. Mechanisms for the Functionalization Sequence Carbon-Heteroatom Coupling to Release the Product... [Pg.259]

Cross-coupling to form carbon heteroatom bonds occurs by oxidative addition of an organic halide, generation of an aryl- or vinylpalladium amido, alkoxo, tholato, phosphido, silyl, stannyl, germyl, or boryl complex, and reductive elimination (Scheme 2). The relative rates and thermodynamics of the individual steps and the precise structure of the intermediates depend on the substrate and catalyst. A full discussion of the mechanism for each type of substrate and each catalyst is beyond the scope of this review. However, a series of reviews and primary literature has begun to provide information on the overall catalytic process.18,19,22,23,77,186... [Pg.390]

Several recent studies have begun to uncover the molecular mechanisms of carbon-heteroatom bond-forming reductive elimination from Pd centers. This recent work has addressed such fundamental questions as the electronic requirements of C-X coupling, the effects of ancillary ligands, the influence of solvent and additives, and the relative rates of competing transformations. The future of this field is bright, as there are stiU many outstanding mechanistic questions to be... [Pg.81]

Alkenylations of heteroatom nucleophiles with alkenyl(aryl)iodonium salts occur by a variety of mechanisms, including SN1, SN2, alkylidenecarbene, and addition-elimination pathways [ 126,127]. Reactions that occur with retention of configuration at vinylic carbon are sometimes attributed to a ligand-coupling... [Pg.155]

Because of the radical mechanism for SET reactions, introduction of both a perfluoroalkyl group and a heteroatom moiety to the carbon-carbon double [17-20] and even triple [21] bonds is possible. The initially generated perfluoroalkyl radicals add first to olefins to form a new radical intermediate (23), which then couples with anions (22) to form new anion radicals (24). The formation of the product (25) and the chain propagation via electron transfer from anion radicals (24) to perfluoroalkyl halides constitutes a chain reaction as shown in Scheme 2.38. Sulfur [19], selenium [20], tellurium [21], and phosphorus [22] anions (22) have been employed for these reactions [23]. [Pg.124]

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See also in sourсe #XX -- [ Pg.1102 ]



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