Arylpalladium complexes

Aryl- or alkenylpalladium comple.xcs can be generated in situ by the trans-metallation of the aryl- or alkenylmercury compounds 386 or 389 with Pd(Il) (see Section 6). These species react with 1,3-cydohexadiene via the formation of the TT-allylpalladium intermediate 387, which is attacked intramolecularlv by the amide or carboxylate group, and the 1,2-difunctionalization takes place to give 388 and 390[322]. Similarly, the ort/trt-thallation of benzoic acid followed by transmetallation with Pd(II) forms the arylpalladium complex, which reacts with butadiene to afford the isocoumarin 391, achieving the 1,2-difunctionalization of butadiene[323]. 

Aromatic acyl halides and sulfonyl halides undergo oxidative addition, followed by facile elimination of CO and SO2 to form arylpalladium complexes. Benzenediazonium salts are the most reactive source of arylpalladium complexes. 

Oxidative addition of the sulfonyl chlorides 144 is followed by facile generation of SO2 to form arylpalladium complexes which undergo alkene inser-tion[112,113]. 

With regard to the mechanism of these Pd°-catalyzed reactions, little is known in addition to what is shown in Scheme 10-62. In our opinion, the much higher yields with diazonium tetrafluoroborates compared with the chlorides and bromides, and the low yields and diazo tar formation in the one-pot method using arylamines and tert-butyl nitrites (Kikukawa et al., 1981 a) indicate a heterolytic mechanism for reactions under optimal conditions. The arylpalladium compound is probably a tetra-fluoroborate salt of the cation Ar-Pd+, which dissociates into Ar+ +Pd° before or after addition to the alkene. An aryldiazenido complex of Pd(PPh3)3 (10.25) was obtained together with its dediazoniation product, the corresponding arylpalladium complex 10.26, in the reaction of Scheme 10-64 by Yamashita et al. (1980). Aryldiazenido complexes with compounds of transition metals other than Pd are discussed in the context of metal complexes with diazo compounds (Zollinger, 1995, Sec. 10.1). 

Relevant complexes have been isolated and fully characterized (4-10, 13-lb). The resulting arylpalladium complex 8 is able to react with various compounds such as terminal alkenes, alkynes, aryl boronic acids or hydrogen-transfer agents to give an organic molecule and palladium(O) (3, 17, 18). 

The necessity of an activator reagent has been explicitly revealed using arylpalladium complexes containing silanyl residues, which are stable in the absence of activator, but immediately undergo transmetalation upon addition of an activator (Equation (16)) 273... 

In the palladium-catalyzed coupling reactions of arenes with alkenes, the cr-arylpalladium complexes react with CO to give aromatic acids in AcOH, as shown in Scheme u 97>97a 97c This carboxylation reaction of arenes with CO proceeds catalytically with respect to Pd at room temperature under atmospheric pressure of CO, when K2S2O8 is added as an oxidant and TFA is employed as a solvent. 

Besides rhodium catalysts, palladium complex also can catalyze the addition of aryltrialkoxysilanes to a,(3-unsaturated carbonyl compounds (ketones, aldehydes) and nitroalkenes (Scheme 60).146 The addition of equimolar amounts of SbCl3 and tetrabutylammonium fluoride (TBAF) was necessary for this reaction to proceed smoothly. The arylpalladium complex, generated by the transmetallation from a putative hypercoordinate silicon compound, was considered to be the catalytically active species. 

The insertion of alkynes into arylpalladium complexes might also be accompanied by the insertion of carbon monoxide into the resulting vinylpalladium intermediate. The carbonylative annulation of TV-protected 2-iodoanilines and internal alkynes under an ambient pressure of carbon monoxide resulted in the formation of 2-quinolones (4.14.), The protection of the nitrogen atom in the aniline is crucial to the success of the reaction. 

The intramolecular nucleophilic attack of a nitrogen atom on an allylpalladium complex was also used to construct a five and a six membered heterocycle in the same step. TV-substituted 2-iodobenzamides bearing an allene function in the appropriate distance from the iodine underwent cyclization through the carbopalladation of the allene moiety by the arylpalladium complex, formed in the first step of the catalytic cycle. The intermediate allylpalladium complex, part of a nine membered ring, cyclized readily to give the pyrroloisoquinolone derivative in excellent yield (4.23.). The nature of the added ligand and the solvent both had a marked influence on the efficiency of the transformation.26... 

V-(2 -bromobcnzyl)-2-methylindole derivatives were cyclized relatively easily to pyrrolophenantridines in the presence of tetrakis(triphenyl-phosphino)palladium (4.29.). In the absence of the 2-methyl group the intramolecular attack of the intermediate arylpalladium complex is directed at the five membered ring giving indoloisoquinoline.33... 

The pentacyclic framework of natural product maxonine was prepared in an intramolecular 1-exo Heck cyclization. The migratory insertion of the pendant olefin into the arylpalladium complex could have led either to the formation of an eight or a seven membered ring, of which only the latter was observed (5.3.), 3... 

The common feature of the first set of examples discussed is the coupling of an arylpalladium complex, formed in oxidative addition, with a five membered heterocyclic ring via the formal displacement of a hydrogen atom. This reaction, formally a Heck coupling, is often called the heteroaryl Heck reaction . 

A different type of indole ring synthesis was accomplished via an intramolecular cyclization of enaminoketones that proceeds through intermediate arylpalladium complexes (90H911). /3-Hydrocarbolines (33) were obtained as the final products. Similar results were obtained in the photo-cyclization of enaminoesters (91TL6129) and enaminolactones (95H1939). Results obtained in the cyclization of A-arylenamines to indoles with... 

Early findings by Suzuki and co-workers [109] showed that the palladium-catalyzed iminocarbonylative cross-coupling reaction between 9-alkyl-9-BBN derivatives, t-butylisocyanide, and arylhalides gives access to alkyl aryl ketones 132 after hydrolysis of the corresponding ketimine intermediates 131. Presumably, the concentration of free isocyanide is kept to a minimum by its coordination with the borane. Formation of an iminoacylpalladium(II) halide 130 by insertion of isocyanide to the newly formed arylpalladium complex followed by a transmetallation step afford the ketimine intermediates 131 (Scheme 8.52). 

Davidson and co-workers568-571 found that benzene reacts withPd(OAc)2 in acetic acid at 100°C to give roughly equal amounts of biphenyl and phenyl acetate. The reaction time was reduced from 16 hr to 5 min at 100°C in the presence of perchloric acid,568 and the yield of biphenyl was higher. Formation of phenyl acetate was also inhibited in the presence of oxygen.571 These authors concluded that oxidative coupling proceeds via an unstable o-bonded arylpalladium complex, which rapidly decomposes to biaryls and Pd(I), that is,... 

To facilitate the coupling reaction of alkenylsilanes, benzenediazonium salts could be employed in place of aryl halides [4], However, the coupling reaction is sometimes accompanied by the formation of regioisomers [Eq.(4)J. This fact is ascribed to a mechanism that involves carbopalladation of an arylpalladium complex to alkenylsilanes followed by elimination of the silyl group and the palladium metal, as is the case in Heck-type reactions. 

Aromatic compounds react with palladium(II) salts such as PdCOAc) and Na2PdCl4 via an electrophilic aromatic substitution process to give arylpalladium complexes. This type of reaction is most commonly observed with aromatic rings bearing a substituent that makes a fi e- or six-membered chelate ring with palladium in the metallation products (eq (87)) [118]. In this case, the electrophilic substitution occurs only at the ortho position to the chelating substituent. 

The palladation products exhibit reactivity similar to that of the arylpalladium complexes formed by oxidative addition of aryl halides to Pd(0) species, although the reactions are stoichiometric with respect to palladium. Representative examples include vinylation via an olefin insertion process (eq (88)) [119], double and single carbonylation (eq (89) and (90)) [120,121], and alkylation via a transmetallation process (eq (91)) [122]. 

Oxidative biomimetic aryl coupling reactions of electron-rich (phenolic) aromatic hydrocarbons have occasionally been reported for selected examples see the reviews by Bringmann et al. [93 a] and the review on the ellagitannin chemistry by Quideau and Feldman [93b]. Oxidative homocoupling has also been achieved with palladium(II) acetate via the 5-arylpalladium complexes [78 d], but stoichiometric amounts of the palladium reagents are often required and acetylation can occur as a side reaction [93a]. 

Surprisingly arylpalladium complexes generated from Na arylsulfinates and PdCl (with deinsertion of SO2) add to endo-dicyclopentadiene to form the exo-cis adduct . The aryl group may coordinate the Pd in the adduct to stabilize it ... 

The arylamines are generally formed in good yields (Table 1). Dehalogenation products are the only by-products observed, which pro-baly arise from base-induced )9-hydride elimination of the amido arylpalladium complex and subsequent reduction. Interestingly, the base employed has a decisive influence on the course of the reaction. In the amination of l-bromo-4-n-butylbenzene with free amines in the presence of silyl amides as base -in contrast to the coupling with tin amides -the rate-determining step in the catalytic cycle is the oxidative addition of bis(tri-o-tolylphosphine)palladium(O) to the aryl halide. However, when LiOrBu is used as base, the formation and reductive elimination of the amido arylpalladium complex is decisive for the rate of the reaction. In the presence of NaOtBu both reaction steps seem to take place at similar rates. [9]... 

The HX species may also be generated intramolecularly, according to a mechanistic work carried out with an arylpalladium complex and norbornene (Eq.l7) [26]. 

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