Palladium arylzinc-aryl halides

Arylzinc species prepared via the sacrificial anode process and from aryl halides in the presence of a nickel 2,2 -bipyridine, as already reported in Section . .1, were found totally unreactive towards common electrophiles such as aldehydes, carboxylic anhydrides or activated alkyl halides. However, they react with some electrophiles when they are activated by the presence of a catalytic amount of copper salts (10 mol% Cul) together with tetramethylethylene diamine (1MEDA) as described by Knochel and Singer on the ArZnX—CuCN metal exchange47 or when the reaction is catalyzed by palladium complex. 

TABLE 4. Palladium-catalyzed coupling of electrogenerated arylzinc species with various aryl halides... 

Equally useful palladium-catalyzed coupling reactions between aryl halides and aryl organometallics have been developed, in which the latter component is usually either a trialkylstannane derivative or the corresponding arylzinc chloride species. In contrast to the foregoing nickel-mediated couplings with... 

There has been a review of palladium-catalysed carbonylative coupling reactions of aryl halides with carbon nucleophiles in the presence of carbon monoxide. It has been shown that rhodium is an efficient catalyst for the homocoupling reaction of arylzinc compounds in the presence of 1 atm of carbon monoxide to give diaryl ketones. Under similar conditions, palladium and nickel catalysts yield biaryls. The beneficial catalysis by rhodium is likely to derive from the ease of migration of the aryl ligand to carbon monoxide in the rhodium(III) intermediate. A rhodium catalyst has also been used in the formation of indole-3-carboxylates by reaction of indoles with alcohols in the presence of carbon monoxide. The catalytic cycle. Scheme 5, is likely to involve metallation of the indole at the 3-position, followed... 

Although the majority of direct arylations have been catalyzed by palladium, rhodium, and ruthenium, some additional studies have also focused on direct arylations catalyzed by first-row metals, such as iron and copper. For example, an iron-catalyzed direct arylation reaction between arylzinc reagents and 2-arylpyridine derivatives has been reported (Equation 19.146). Several direct couplings of heteroarenes with aryl halides (Equation 19.147) or hypervalent iodine reagents ° catalyzed by copper halides have also been reported. 

Cobalt has attracted attention in recent years as a cost-effective and sustainable alternative to palladium or nickel. As indicated earlier, functionalized arylzinc reagents can be prepared from aryl halides and sulfonates by zinc insertion in the presence of catalytic amounts of CoBtj [50, 51, 210). Interestingly, the presence of this cobalt salt suffices to catalyze in situ the cross-coupling of the arylzincs thus produced with aryl, alkyl, and heteroaryl electrophiles such as organic halides [211-214] or thioethers, as exemplified with the formation of 286 [214] (Scheme 4.63). 

Organozinc compounds are also useful in palladium-catalyzed coupling with aryl and alkenyl halides. Procedures for arylzinc,156 alkenylzinc,157 and alkylzinc158 reagents have been developed. The ferrocenyldiphosphine dppf has been found to be an especially good Pd ligand for these reactions.159... 

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