Suzuki coupling reactions aryl chlorides with phenylboronic acid

Pd nanoparticles supported on PANI-NFs are efficient semi-heterogeneous catalysts for Suzuki coupling between aryl chlorides and phenylboronic acid, the homocoupling of deactivated aryl chlorides, and for phenol formation from aryl halides and potassium hydroxide in water and air [493], PANl-NF-supported FeCl3 as an efficient and reusable heterogeneous catalyst for the acylation of alcohols and amines with acetic acid has been presented [494]. Vanadate-doped PANI-NFs and PANI-NTs have proven to be excellent catalysts for selective oxidation of arylalkylsulfides to sulfoxides under nuld conditions [412]. Heterogeneous Mo catalysts for the efficient epoxidation of olefins with ferf-butylhydroperoxide were successfully synthesized using sea urchin-Uke PANI hollow microspheres, constructed with oriented PANI-NF arrays, as support [495]. Pt- and Ru-based electrocatalyst PANI-NFs—PSSA—Ru—Pt, synthesized by the electrodeposition of Pt and Ru particles into the nanofibrous network of PANI-PSSA, exhibited an excellent electrocatalytic performance for methanol oxidation [496]. A Pt electrode modified by PANI-NFs made the electrocatalytic oxidation reaction of methanol more complete [497]. Synthesis of a nanoelectrocatalyst based on PANI-NF-supported... 

A convenient and effective palladium-catalysed Suzuki-Miyaura cross coupling reaction of deactivated aryl chlorides with phenylboronic acid utilised the 1,3-diazepinium salts 107 as in situ precursors of the palladium ligands. These salts were prepared from the diamines 106 and cyclocondensation with triethyl orthoformate <05SL2394>. 

Most recently, Monteiro et al. have reported that cyclopalladated compounds derived from the ortho-metalation of benzylic tert-butyl thioethers are excellent catalyst precursors for the Suzuki cross-coupling reaction of aryl bromides and chlorides with phenylboronic acid under mild reaction conditions. A broad range of substrates and functional groups are tolerated in this protocol, and high catalytic activity is attained (Eq. (58)) [93]. 

Calo and coworkers reported the use of Pd nanoparticles in ionic liquids (quaternary ammonium salts) as catalysts for the Suzuki coupling reaction of aryl bromides and chlorides with phenylboronic acid. The catalytic system was found... 

Palladium species immobilized on various supports have also been applied as catalysts for Suzuki cross-coupling reactions of aryl bromides and chlorides with phenylboronic acids. Polymers, dendrimers, micro- and meso-porous materials, carbon and metal oxides have been used as carriers for Pd particles or complexes for these reactions. Polymers as supports were applied by Lee and Valiyaveettil et al. (using a particular capillary microreactor) [173] and by Bedford et al. (very efficient activation of aryl chlorides by polymer bound palladacycles) [174]. Buch-meiser et al. reported on the use of bispyrimidine-based Pd catalysts which were anchored onto a polymer support for Suzuki couplings of several aryl bromides [171]. Investigations of Corma et al. [130] and Plenio and coworkers [175] focused on the separation and reusability of Pd catalysts supported on soluble polymers. Astruc and Heuze et al. efficiently converted aryl chlorides using diphosphino Pd(II)-complexes on dendrimers [176]. 

A traceless solid-phase synthetic strategy has been developed. For example, a solid-phase Suzuki coupling of the Reissert intermediate 30 to 31 has been reported. The process consists of three steps (a) Solid-phase Reissert formation by the reaction of polymer-supported benzoic acid chloride resin with an isoquinoline, followed by reaction with TMSCN to afford the aryl bromide of Reissert 30, (b) Suzuki coupling of the solid-phase Reissert 30 with phenylboronic acid to provide the coupling product, and (c) subsequent treatment of the coupling product with aqueous KOH to produce 31 (86 % overall yield based on the starting bromide) (Eq. (62)) [99]. 

The Suzuki reaction of j9-chlorobenzoyl chloride and thiophene-2-boronic acid was carried out under anhydrous conditions to furnish ketone 118 [81], providing an alternative synthesis of ketones. Behaving like simple aryl halides, iodothiophenes served as coupling partners with phenylboronic acid [82] and thienylboronic acid [83] to deliver biaryls 119 and 120, respectively. 

The Suzuki-Miyaura cross-coupling reaction is a standard method for carbon-carbon bond formation between an aryl halide or triflate and a boronic acid derivative, catalyzed by a palladium-metal complex. As with the Mizoroki-Heck reaction, this cross-coupling reaction has been developed in ionic liquids in order to recycle and reuse the catalyst. In 2000, the first cross-coupling of a halide derivative with phenylboronic acid in [bmim] [BF4] was described. As expected, the reaction proceeded much faster with bromobenzene and iodobenzene, whereas almost no biphenyl 91 was obtained using the chloride derivative (Scheme 36). The ionic liquid allowed the reactivity to be increased, with a turnover number between 72 and 78. Furthermore, the catalyst could be reused repeatedly without loss of activity, even when the reaction was performed under air. Cross-coupling with chlorobenzene was later achieved - although with only a moderate yield (42%) - using ultrasound activation. 

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