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Carbon-boron bond forming reactions

Remarkable carbon-boron bond-forming reactions are catalyzed by iridium complexes and proceed at room temperature with excellent regioselectivity, governed by steric factors. Heteroarenes are borylated in the 2-position and this reaction is generally tolerant of halide substituents on the arene (Equations (87) and (88)). [Pg.128]

Carbon - Boron Bond Forming Reactions at Room Temperature... [Pg.315]

Recently, interest in copper-catalyzed carbon-heteroatom bond-forming reactions has shifted to the use of boronic acids as reactive coupling partners [133], One example of carbon-sulfur bond formation is displayed in Scheme 6.65. Lengar and Kappe have reported that, in contrast to the palladium(0)/copper(l)-mediated process described in Scheme 6.55, which leads to carbon-carbon bond formation, reaction of the same starting materials in the presence of 1 equivalent of copper(II) acetate and 2 equivalents of phenanthroline ligand furnishes the corresponding carbon-sulfur cross-coupled product [113]. Whereas the reaction at room temperature needed 4 days to reach completion, microwave irradiation at 85 °C for 45 min in 1,2-dichloroethane provided a 72% isolated yield of the product. [Pg.152]

This landmark discovery paved the way for the development of transition metal-catalyzed hydroboration. The conversion of an alkene into an organoborane intermediate has made this a valuable synthetic technique, particularly since the development of enantioselective variants.9,10 They serve as synthons for numerous functional groups11 and are often subjected to a consecutive carbon-oxygen, carbon-carbon, boron-carbon, boron-chlorine, or carbon-nitrogen24 bond-forming reaction (Scheme 3). [Pg.840]

The combination of rhodium catalysts and organoboronic acids has emerged recently as a powerful and ideal catalytic system in carbon-bond forming reactions. This tremendous system overcomes the functional group protection issue, but can also apply to catalytic asymmetric synthesis, which can provide much chiral product using a small amount of a chiral catalyst. This chapter reviews the development and scope of the rhodium-catalyzed addition of boronic acids to organic electrophiles [1]. [Pg.171]

Palladium-catalyzed carbon-carbon bond forming reactions like the Suzuki reac-tion as well as the Heck reaction and the Stille reaction, have in recent years gained increased importance in synthetic organic chemistry. In case of the Suzuki reaction, an organoboron compound—usually a boronic acid—is reacted with an aryl (or alkenyl, or alkynyl) halide in the presence of a palladium catalyst. [Pg.272]

Carbon-Carbon Bond-Forming Reactions of Compounds of Boron, Silicon, and Tin... [Pg.783]

See other pages where Carbon-boron bond forming reactions is mentioned: [Pg.532]    [Pg.532]    [Pg.228]    [Pg.283]    [Pg.372]    [Pg.7]    [Pg.136]    [Pg.77]    [Pg.534]    [Pg.316]    [Pg.31]    [Pg.22]    [Pg.786]    [Pg.1337]    [Pg.239]   
See also in sourсe #XX -- [ Pg.315 , Pg.316 , Pg.317 , Pg.318 , Pg.319 , Pg.320 , Pg.321 , Pg.322 , Pg.323 ]



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Bond-forming

Boron bonding

Boronation reaction

Carbon forms

Reaction bond-forming

Reactions Boron

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