Distinguishing Between Pathways for Transmetalation in Suzuki−Miyaura Reactions

Abstract: We report a systematic study of the stoichiometric reactions of isolated arylpalladium hydroxo and halide complexes with arylboronic acids and aryltrihydroxyborates to evaluate the relative rates of the two reaction pathways commonly proposed to account for transmetallation in the SuzukiMiyaura reaction. Based on the relative populations of the palladium and organoboron species generated under conditions common for the catalytic process and the observed rate constants for the stoichiometric reactions between t… Show more

“…In previous reports, water was found to accelerate the reduction of tertiary phosphine (PR 3 ) complexes of palladium(II) acetate to L n Pd(0), but at elevated temperatures. 51,52 Recently, two independent studies of the transmetalation of arylboronic acids to phosphine-ligated palladium complexes were reported, 53,54 which implicated the involvement of a hydroxylpalladium intermediate for the transfer of an aryl group from ArB(OH) 2 . The formation of Pd(0) species was not observed by the introduction of water, under the reaction conditions adopted by the stopped-flow experiments described above.…”

Speciation of Pd(OAc)₂in ligandless Suzuki–Miyaura reactions

“…In previous reports, water was found to accelerate the reduction of tertiary phosphine (PR 3 ) complexes of palladium(II) acetate to L n Pd(0), but at elevated temperatures. 51,52 Recently, two independent studies of the transmetalation of arylboronic acids to phosphine-ligated palladium complexes were reported, 53,54 which implicated the involvement of a hydroxylpalladium intermediate for the transfer of an aryl group from ArB(OH) 2 . The formation of Pd(0) species was not observed by the introduction of water, under the reaction conditions adopted by the stopped-flow experiments described above.…”

Speciation of Pd(OAc)₂in ligandless Suzuki–Miyaura reactions

“…18,19 On the other hand, recent kinetic studies and extensive computational data suggest that the boronic acid should be activated by the base (forming a boronate) in order for the transmetalation to occur. 20,21 In our case, we experimentally used a variety of conditions, which included boronic acid reagents (together with a base), or NaPh 4 B (see Tables 1, 3 and 4).…”

Palladium catalysed sequential imine arylation/Suzuki–Miyaura coupling: synthesis of α-(biarylyl)benzylamines

“…Most of the reported Suzuki-Miyaura type cross-coupling reactions via C-F bond cleavage, employing either highly electron-deficient organofluorine compounds or those bearing a directing group, have traditionally been conducted in the presence of a base [59,[75][76][77][78][79][80][81][82][83][84][85], whereas fluoride anion itself is regarded as a good activator for neutral organoboron reagents. The role of a base in a Suzuki-Miyaura coupling reaction is generally considered to follow one of two patterns; either converting a neutral organoboron compound into a nucleophilic boronate, or converting a palladium halide intermediate into an active palladium species via a ligand exchange reaction by the base [86,87]. In fact, Widdowson pointed out the possibility that the use of an extraneous base should be, in principle, catalytic [75].…”

Palladium-Catalyzed Cross-Coupling Reactions of Perfluoro Organic Compounds