Arylations silver® acetate

A clean twofold Heck coupling of unsubstituted butadiene 46 (R = H) in the 1- and 4-positions has not been reported. However, the initial carbopalladation product from 46 (R = H) and an in situ formed arylpalladium halide, the cr-allylpalladium halide 47 equilibrating with the corresponding 7r-allylpalladium halide, can efficiently be trapped with the anion formed by arylation of malononitrile or cyanoacetate to give 48, a product of reductive 1,4-arylation-alkylation of 1,3-butadiene 46 (R = H)." /3-Hydride elimination from the intermediate 47 (R H) can be accomplished when the reaction is carried out in the presence of silver acetate or thallium acetate, leading to the... 

The silver acetate-promoted 1,3-dipolar cycloaddition of nitrilimines with 3(/f )-pheny]-4(A )-cinnamoyl-2-azetidinone produced the major adduct, 4-(4,5-dihydro- (g) pyrazol-5-yl)carbonyl-2-azetidinones, with high stereoselectivity.70 The 1,3-dipolar cycloadditions of substituted 2,7-dime(liyl-3-thioxo-3,4,5,6-ici.rahydro-2//- 1,2,41 triazepin-5-one with iV-aryl-C-ethoxycarbonylnitrilimines are highly chemoselective, where the sulfur atom of the dipolarophile interacts with the carbon atom of the dipole.71 The enantioselective 1,3-dipolar cycloaddition of nitrile imines with electron deficient acceptors produces dihydropyrazoles in the presence of 10 mol% of chiral Lewis acid catalyst.72... 

Cossio and Linden et al. studied the reaction of aryl iminoester-derived azomethine ylides 65 with 2- and 1,2-disubstituted nitroalkenes 66 using silver acetate and triethylamine in acetonitrile (Scheme 2.18).35 The product 3-nitropyrrolidines were formed in yields of 24—69% with excellent regioselectivity. These findings mirrored earlier work by Toke et al.36 Unfortunately, diastereoselectivity was generally in the 1 1—4 region. Only in two cases where yields were low were the products formed in a 2 98 ratio. Lithium perchlorate was able to catalyze the reaction as well with similar yields. Remarkably, the diastereoselectivity with lithium perchlorate in some cases resembled that obtained with silver acetate and in others was reversed. Cossio also reported the stereoselective reaction of phenyl isocyanates with azomethine ylides 65 under the same conditions.37 These reactants combined to give the expected products as single stereoisomer in 30-50% yield. 

While virtually all of the research described above has focused on the inter-molecular cycloaddition of azomethine ylides, the intramolecular process holds considerable promise for the synthesis of polycyclic natural products. The Pfaltz group reported an intramolecular catalytic asymmetric cyclization of aryl iminoesters 112 using a complex of silver acetate with PHOX type ligand 100 (Scheme 2.29,... 

Abstraction of chloride from a vinylpalladium complex by silver acetate has been reported,45 as well as halide abstraction by silver triflate from arylpalladium halides.46 More interestingly in the context of creating C-C bonds, silver perchlorate was able to promote the reaction of (r -aryl)palladium bromide with dienes. Silver-promoted bromide abstraction led to the formation of (r 1-r 2-enyl)palladium complexes, which evolved further through the regioselective formation of a C-C bond between the aryl group and the former diene. Reactions with nonconjugated dienes suggested that the reaction proceeds via carbometallation of the less crowded double bond. Isomerization and (3 elimination led to a (ri3-allyl)palladium complex (Scheme 10.26).47... 

Such an arylation reactioncanneverthelessberendered regioselectiveifcoordinating atoms are present in the starting molecule at the appropriate position, directing the C-H activation at this position. Thus, 2-arylbenzoxazoles have been regioselectively arylated in the presence of palladium acetate and silver acetate (Scheme 10.54).86... 

The peptidic phosphine ligands that had been introduced by Hoveyda and co-workers271 for enantioselective copper-catalyzed Michael additions (see Section 9.12.2.2.1) were also employed successfully in silver-catalyzed asymmetric Mannich reactions.3 Thus, the aryl-substituted imines 372 reacted with various silyl enol ethers in the presence of stoichiometric amounts of isopropanol, as well as catalytic amounts of silver acetate and ligand 373 to... 

Treatment of aryl tellurium trichlorides with silver fluoride, potassium bromide, or potassium iodide causes chlorine to be exchanged for other halogens (see p. 320). The reaction of 4-ethoxyphenyl tellurium trichloride with silver acetate gave a compound of indefinite composition6. 

Using an alternative method, homoallylic iodides are efficiently transformed into cyclopropylmethyl acetates using silver acetate in anhydrous benzene (Table 1). y-Disubstituted or conjugated homoallylic iodides are particularly reactive and rearrange quantitatively. y-Monosub-stituted iodides afford mixtures of cyclopropylmethyl and homoallyl acetates in a 1 1 ratio, whereas the absence of a y-alkyl or aryl group in the homoallylic iodides leads to elimination, only. 

Anilides substituted in 2- or 3-positions are monoarylated. 4-Substituted anilides can be either mono- or diarylated. For slower reactions or diarylation, use of silver trifluoroacetate instead of silver acetate is beneficial by increasing the reaction rate. The products can be deprotected by base hydrolysis to afford 2-aryl- or 2,6-diarylanilines. 

Another method that has been developed for benzoic acid arylation by aryl iodides involves use of a combination of catalytic palladium acetate with stoichiometric silver acetate in acetic acid (Scheme 14) [61], This method is tolerant of chloride and bromide substitution and most likely proceeds through a Pd(II)-Pd(IV) coupling cycle. Moderately electron-poor to electron-rich benzoic acids are reactive,... 

Regioselective functionalization of unreactive carbon-hydrogen bonds, in particular, arylation of pyridines by using aryl iodide, silver acetate, and catalytic palladium acetate 06SL3382. 

Many arylations are assisted by functional groups that promote ortho-metallation. Thus, for example, acetanihdes react with arylsilanes at the ortho position via pal-ladacycles 78 and 79 to form derivatives 80 (Scheme 11.27) [84]. Mechanistically, this transformation is similar to a cross-coupling reaction, in which the oxidative addition step is replaced by the ortho-metallation, although in this case the Pd(0) intermediate must be oxidized in situ to generate the reactive Pd(ll) species. Unsubstituted benzylamines and N-methylbenzylamine are ortho-arylated with Pd(OAc)2 in the presence of trifluoroacetic acid (TFA) and silver acetate [85], and a mechanism which differs from the usual Pd(0)/Pd(II) catalytic cycle was suggested for this. Ortho-alkylation was also observed in the palladium-catalyzed... 

The coupling of anilines with arylboronic acids has been described in a process catalysed by palladium acetate without the need for ligands, bases, or salts. The mechanism shown in Scheme 17, where S represents solvent, involves in situ formation of the dia-zonium salt from the aniline, and formation of an arylpalladium alkoxo complex which allows the transmetallation step with arylboronic acids. It has been shown that a free amine may be used as a DG in a palladium-catalysed reaction promoted by soluble silver salts. The latter aid the formation of intermediates, (136), which may undergo cyclopalladation followed by transmetallation with an arylboronic acid and reductive elimination. Related work has shown thatbiaryl-2-amines may react with aryl iodides in the presence of palladium acetate and silver acetate to give mono- or di-arylated species such as (137). 

The Ag(I)-catalyzed 1,3-dipolar cycloaddition of azomethine ylides with trifluo-romethylated imines afforded the corresponding 5-(triflnoromethyl)imidazole-4-car-boxylates (Scheme 40) [54], The tetrahydroimidazole cycloadducts were converted to dihydroimidazoles by DDQ oxidation, which in tnm were treated with BrCCla in the presence of DBU to afford the corresponding 2-aryl-5-trifluoromethylimidazoles. The azomethine ylides, bearing aryl and heteroaryl gronps, successfully participated in this room-temperature cycloaddition, catalyzed by silver acetate. 

Silver acetate promoted iodine removal and palladium-catalyzed coupling of aryl iodides and (V-acylated anilides produced ortho-aryl acylated anilides, which were then hydrolyzed to give 2-aryl or 2,6-diarylanilines. This silver-ion assisted palladium-catalyzed aryl-aryl coupling was general (53-96% yields) and showed functional group tolerance for chloride and bromide substituents in either the aryl iodides or anilides (eq 16).i ... 

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