Electrophilic aromatic acylation

J. J. Scheele, Electrophilic Aromatic Acylation. Tech. Hogesch, Delft, The Netherlands, 1991 Chem. Abstr. 1992, 117, 130844y. 

The acyl radicals thus produced acylate heteroaromatic bases. Thus benzo-thiazole is converted into 2-acetylbenzothiazole when acetaldehyde is used as the radical precursor. Aromatics such as N,N-dimethylaniline do not react, and hence this new type of free-radical acylation is opposite to the usual electrophilic aromatic acylation. 

J.J. Scheele in Electrophilic Aromatic Acylation , Thesis, Delf, (1991). 

J.J. Scheele in Electrophilic Aromatic Acylation , Tech. Hogeech, Delft, Neth. (1991) Chem. Abstr. ill, 130844, (1991). 

Ionic liquids can provide an ideal medium for reactions that involve reactive ionic intermediates due to their ability to stabilize charged intermediates such as acyl cations in Friedel-Crafts acylation. As shown in the previous chapter, examples of electrophilic aromatic acylation are reported utilizing ionic liquid-catalysts based on classic Lewis acids, namely, [emim] Cl-aluminum chloride and [emim]Cl-iron trichloride, which can give acylation of both activated and deactivated aromatic compounds. ... 

Results from Tables 4.19M.21 allow us to draw the important conclusion that electrophilic aromatic acylation can be performed with SZ catalysts containing a substoichiometric number of catalytically active surface sites in comparison to the alternative classic Friedel-Crafts acylation reactions. However, further and deeper studies are desirable on this... 

The nucleophilicity of the acyl radical, " because with decreasing nucleophihcity of the derived acyl radical, the formation of monoesters (45) became favored. For example, whereas most aliphatic acyl radicals predominantly gave acylated hydroquinones (6) with benzoquinone (5), the more electrophilic aromatic acyl radical carrying electron-withdrawing substituents in para-posi-... 

The nitration, sulphonation and Friedel-Crafts acylation of aromatic compounds (e.g. benzene) are typical examples of electrophilic aromatic substitution. 

Electrophilic aromatic substitution (Sec tion 22 14) Arylamines are very reac tive toward electrophilic aromatic sub stitution It IS customary to protect arylamines as their N acyl derivatives before carrying out ring nitration chio rination bromination sulfonation or Friedel-Crafts reactions... 

Other typical electrophilic aromatic substitution reactions—nitration (second entry) sul fonation (fourth entry) and Friedel-Crafts alkylation and acylation (fifth and sixth entnes)—take place readily and are synthetically useful Phenols also undergo elec trophilic substitution reactions that are limited to only the most active aromatic com pounds these include mtrosation (third entry) and coupling with diazomum salts (sev enth entry)... 

The reaction exhibits other characteristics typical of an electrophilic aromatic substitution. Examples of electrophiles that can effect substitution for silicon include protons and the halogens, as well as acyl, nitro, and sulfonyl groups. The feet that these reactions occur very rapidly has made them attractive for situations where substitution must be done under very mild conditions. ... 

Friedel-Crafts acylation of aromatic compounds (Section 12.7) Acyl chlorides and carboxylic acid anhydrides acylate aromatic rings in the presence of aluminum chloride. The reaction is electrophilic aromatic substitution in which acylium ions are generated and attack the ring. 

Friedel-Crafts acylation (Section 12.7) An electrophilic aromatic substitution in which an aromatic compound reacts with an acyl chloride or a carboxylic acid anhydride in the presence of aluminum chloride. An acyl group becomes bonded to the ring. 

A more practical solution to this problem was reported by Larson, in which the amide substrate 20 was treated with oxalyl chloride to afford a 2-chlorooxazolidine-4,5-dione 23. Reaction of this substrate with FeCL affords a reactive A-acyl iminium ion intermediate 24, which undergoes an intramolecular electrophilic aromatic substitution reaction to provide 25. Deprotection of 25 with acidic methanol affords the desired dihydroisoquinoline products 22. This strategy avoids the problematic nitrilium ion intermediate, and provides generally good yields of 3-aryl dihydroisoquinolines. 

The synthesis of an alkylated aromatic compound 3 by reaction of an aromatic substrate 1 with an alkyl halide 2, catalyzed by a Lewis acid, is called the Friedel-Crafts alkylation This method is closely related to the Friedel-Crafts acylation. Instead of the alkyl halide, an alcohol or alkene can be used as reactant for the aromatic substrate under Friedel-Crafts conditions. The general principle is the intermediate formation of a carbenium ion species, which is capable of reacting as the electrophile in an electrophilic aromatic substitution reaction. 

The mechanism for that step is closely related to that of the Friedel-Crafts acylation. Upon subsequent hydrolysis the o-substituted Lewis acid-coordinated phenolate 7 is converted to the free o-acylphenol 2. By an analogous route, involving an electrophilic aromatic substitution para to the phenolate oxygen, the corresponding para-acylphenol is formed. 

With a substituted aromatic ring compound 2, mixtures of isomeric coupling products may be formed the ort/zo-product usually predominates. The rules for regiochemical preferences as known from electrophilic aromatic substitution reactions (see for example Friedel-Crafts acylation), do not apply here. 

Friedel-Crafts reaction (Section 16.3) An electrophilic aromatic substitution reaction to alkylate or acylate an aromatic ring. 

Diels-Alder reaction, 493 El reaction, 391-392 ElcB reaction, 393 E2 reaction, 386 Edman degradation, 1032 electrophilic addition reaction, 147-148. 188-189 electrophilic aromatic substitution, 548-549 enamine formation, 713 enol formation, 843-844 ester hydrolysis, 809-811 ester reduction, 812 FAD reactions. 1134-1135 fat catabolism, 1133-1136 fat hydrolysis, 1130-1132 Fischer esterification reaction, 796 Friedel-Crafts acylation reaction, 557-558... 

The synthesis of 3-aryltetrahydroisoquinolines was accomplished by electrophilic aromatic substitution of polysubstituted phenols and phenyl ethers with Lewis acid-generated tosyliminium ions of 2-tosyl-3-methoxytetrahydroisoquinoline derivatives <00SL801>. In addition isoquinoline was reported to react with N-tosylated (R)- or (S)-amino acid fluorides to afford optically active dihydroimidazoisoquinolinones. The reaction proceeds via acylation followed by attack of the tosylamino group at Cl of the intermediate 2-tosylaminoacylisoquinolinium salt <00TL5479>. 

The classical Friedel-Crafts approach toward attaching a phosphorus site directly to an aromatic ring would seem a promising route. Phosphorus-centered acid halides would be anticipated to participate in electrophilic aromatic substitution much in the manner of ordinary acyl halides. Early efforts confirmed this concept.48-52 However, difficulties have been encountered in the use of the classical conditions,53 and modifications to the approach have been necessary. 

Other reactions have been studied for synthesizing these polymers, including the electrophilic aromatic substitution of acyl and sulfonyl halides on aromatic reactants and the nickel-catalyzed aromatic coupling of aromatic dihalides [Yonezawa et al., 2000]. 

Electrophilic aromatic substitution is a reaction where a hydrogen atom in an aromatic system, e.g. benzene, is replaced by an electrophile. Some of the important electrophilic substitution reactions are Friedel-Crafts alkylation and acylation, nitration, halogenation and sulphonation of benzene. 

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