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Amides from aryl halides

In addition, reductive elimination of palladium and nickel complexes to form esters (Equations 8.67 and 8.68), amides, and tiiioesters has been reported. -" The reductive eliminations of esters and amides were observed during mechanistic studies on the palladium-catalyzed formation of esters and amides from aryl halides, carbon monoxide, and alcohols or amines. This catalytic process is presented in Qiapter 17 (carbonylation processes). The reductive elimination of thioesters from nickel complexes were studied, in part, to understand the C-S bond-forming process of acetyl coenzyme A synthase. Prior to this work, an iron-mediated synthesis of p-lactams had been reported that appears to occur by reductive elimination to form the amide C-N bond of the lactam. ... [Pg.344]

The palladium-catalyzed Heck carbonylation reaction is a powerful means of generating amides, esters, and carboxylic acids from aryl halides or pseudohalides [28]. The development of rapid, reliable, and convenient procedures for the introduction of carbonyl groups is important for the development of high throughput chemistry in general and high-speed microwave-mediated chemistry in particular. Unfortunately, the traditional method of introducing carbon monoxide into a reaction mixture via a balloon or gas tube is not practical because of the special requirements of microwave synthesis. [Pg.387]

In the original process using tin amides, transmetallation formed the amido intermediate. However, this synthetic method is outdated and the transfer of amides from tin to palladium will not be discussed. In the tin-free processes, reaction of palladium aryl halide complexes with amine and base generates palladium amide intermediates. One pathway for generation of the amido complex from amine and base would be reaction of the metal complex with the small concentration of amide that is present in the reaction mixtures. This pathway seems unlikely considering the two directly observed alternative pathways discussed below and the absence of benzyne and radical nucleophilic aromatic substitution products that would be generated from the reaction of alkali amide with aryl halides. [Pg.244]

The coupling of amides and aryl halides or sulfonates is a highly desirable transformation since amides are ubiquitous in biologically active compounds. The arylation of amides however, is considerably different from the analogous reactions of amines since their pKas, and thus their relative reactivities, are considerably different. [Pg.183]

A microwave-assisted fast and convenient route to palladium-catalyzed car-bonylation reactions has been reported. The microwave-assisted amidation of aryl halides 41 was achieved utilizing in situ generated carbon monoxide from [Mo(CO)6] (see Scheme 24) [46]. Aliphatic non-hindered primary amines 42 were observed to couple easily whereas hindered amines or amines with low nucleophilicity, e.g. anilines, afforded low yields and incomplete conversions. No difference in reactivity among electron-deficient, neutral or electron-rich aryl halides was found. In general, iodides could be coupled with solid Pd/C (or Pd(OAc)2) as catalyst, while bromides required a homogeneous catalyst. Ami-dations were studied in a sealed microwave protocol at 150 for 15 min, which could also be performed in a classical oil bath without any loss of yield. [Pg.195]

No studies on the mechanism of the complete catalytic cycle for formation of aryl ethers from aryl halides have been conducted, but the elementary reactions in the cycle are likely to be similar to those in the catalytic cycle for formation of aryl amines. Oxidative addition, formation of an alkoxo complex, and reductive elimination of ether are likely to occur. It is the slow reductive elimination of ether that allows for amide complexes to form and undergo reductive elimination in the presence of t-BuO" instead of undergoing reductive elimination of ether. [Pg.1102]

The first Mo(CO)6-promoted, microwave-assisted protocols for aminocarbonylation of aryl bromides and iodides to primary benzamides were presented in 2006 [34]. Hydroxylamine hydrochloride was used as a solid ammonia equivalent as it was found that hydroxylamine was smoothly reduced in situ by Mo(CO)6, generating free ammonia that could undergo the carbonylation. The conditions found suitable for this reaction included an aryl halide, Mo(CO)6, NH2OH HCI, 1,2, DBU, and DIEA in dioxane followed by 20 min of microwave heating at 110 °C for Ar-I and 150 °C for Ar-Br. Eight primary benzamides were synthesized from aryl bromides in 70-81% yield and the same amides from aryl iodides in 76-84% yield (Scheme 4.20). The method was also used in the synthesis of weak HIV-1 protease inhibitors (Scheme 4.21) [34]. [Pg.105]

The o-keto ester 513 is formed from a bulky secondary alcohol using tricy-clohexylphosphine or triarylphosphine, but the selectivity is low[367-369]. Alkenyl bromides are less reactive than aryl halides for double carbonyla-tion[367], a-Keto amides are obtained from aryl and alkenyl bromides, but a-keto esters are not obtained by their carbonylation in alcohol[370]. A mechanism for the double carbonylation was proposed[371,372],... [Pg.199]

In contrast to the borylation of alkane C-H bonds, the coupling of aryl halides with amines was based on a literature precedent from another group published about a decade before our initial studies. Kosugi, Kameyama and Migita published the coupling of aryl halides with tin amides." Mechanistic studies we conducted on this process led us to the perhaps obvious realization that the reaction" could be conducted with amines and a silylamide base instead of tin amides (equation 4)." Surveys of bases with similar p a values led Janis Louie to conduct reactions with alkoxide bases. Similar studies were conducted at nearly the same time by Steve Buchwald and coworkers."... [Pg.22]

The palladium-catalyzed carbonylation of aryl halides in the presence of various nucleophiles is a convenient method for synthesizing various aromatic carbonyl compounds (e.g., acids, esters, amides, thioesters, aldehydes, and ketones). Aromatic acids bearing different aromatic fragments and having various substituents on the benzene ring have been prepared from aryl iodides at room temperature under 1 atm... [Pg.184]

Amides and sulfonamides undergo intramolecular chemistry to form aryl amides and aryl sulfonamides (Equations (17)—(19)) in the presence of palladium catalysts ligated by arylphos-phines.35,89 Initially, complexes of P(furyl)3 and P(o-tol)3 were most effective catalysts, but complexes of Hayashi s MOP and van Leeuwen s DPEphos and xantphos have lately been shown to be more active.90 In the presence of catalysts containing one of these ligand systems, five-, six-, and seven-membered rings were formed from halogenated benzamides or from substrates containing an acetamide, an A-carbobenzyloxy, or a t-butylcarbamate substituent tethered to the aryl halide (Equations (18) and (19)) ... [Pg.379]

The intermolecular coupling of lactams and acyclic amides has also been reported. Reactions of carbamates with aryl halides occurred in the presence of catalysts ligated by P(/-Bu)3.78 Both carbamates and amides coupled with aryl halides in the presence of a catalyst bearing Xantphos.90 In addition, the coupling of lactams with aryl halides has been successful. A combination of Pd(OAc)2 and DPPF first formed A-aryl lactams in good yields from 7-lactams, but the arylation of amides was improved significantly by the use of Xantphos (Equations (20) and (21)).90 91 The reaction of aryl halides with vinyligous amides has also been reported 92... [Pg.379]

Cross coupling between an aryl halide and an activated alkyl halide, catalysed by the nickel system, is achieved by controlling the rate of addition of the alkyl halide to the reaction mixture. When the aryl halide is present in excess, it reacts preferentially with the Ni(o) intermediate whereas the Ni(l) intermediate reacts more rapidly with an activated alkyl halide. Thus continuous slow addition of the alkyl halide to the electrochemical cell already charged with the aryl halide ensures that the alkyl-aryl coupled compound becomes the major product. Activated alkyl halides include benzyl chloride, a-chloroketones, a-chloroesters and amides, a-chloro-nitriles and vinyl chlorides [202, 203, 204], Asymmetric induction during the coupling step occurs with over 90 % distereomeric excess from reactions with amides such as 62, derived from enantiomerically pure (-)-ephedrine, even when 62 is a mixture of diastereoisomcrs prepared from a racemic a-chloroacid. Metiha-nolysis of the amide product affords the chiral ester 63 and chiral ephedrine is recoverable [205]. [Pg.140]

Successful lithiation of aryl halides—carbocyclic or heterocyclic—with alkyUithiums is, however, the exception rather than the rule. The instability of ortholithiated carbocyclic aryl halides towards benzyne formation is always a limiting feature of their use, and aryl bromides and iodides undergo halogen-metal exchange in preference to deprotonation. Lithium amide bases avoid the second of these problems, but work well only with aryl halides benefitting from some additional acidifying feature. Chlorobenzene and bromobenzene can be lithiated with moderate yield and selectivity by LDA or LiTMP at -75 or -100 °C . [Pg.540]


See other pages where Amides from aryl halides is mentioned: [Pg.352]    [Pg.352]    [Pg.754]    [Pg.152]    [Pg.199]    [Pg.199]    [Pg.201]    [Pg.110]    [Pg.110]    [Pg.111]    [Pg.478]    [Pg.925]    [Pg.147]    [Pg.118]    [Pg.919]    [Pg.67]    [Pg.23]    [Pg.854]    [Pg.23]    [Pg.95]    [Pg.371]    [Pg.983]    [Pg.451]   
See also in sourсe #XX -- [ Pg.513 , Pg.1653 ]




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Amidation aryl halides

Amide halides

Amides arylation

Aryl amides

From amides

From aryl halides

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