Acylation, of aromatics

Friedel-Crafts acylation of aromatics is of considerable practical value owing to the importance of aryl ketones and aldehydes as chemical intermediates.346 Whereas alkylation of aromatics with alkyl halides requires only catalytic amounts of catalysts, acylation to ketones generally necessitates equimolar or even some excess of the Friedel-Crafts catalysts. Usually one molar equivalent of catalyst combines with an acyl halide, giving a 1 1 addition compound, which then acts as the active acylating agent [Eq. (5.137)]. 

Evidence supporting the formation of 1 1 addition compounds is further substantiated by the actual isolation of stable acyl cation salts (Chapter 3). Therefore, it is highly desirable to develop methods in which only a catalytic amount of Friedel-Crafts acid catalyst may be used for effective conversion. 

Effenberger and Epple347 showed that alkylbenzenes are effectively acylated when 1 % triflic acid is added to the mixture [Eq. (5.138)] (Table 5.26). It was shown that when other Brpnsted or Lewis acids were used, the yield decreased drastically (Table 5.27). Perfluorobutanesulfonic acid was found similarly effective (35-84% yields)348 [Eq. (5.138)]. 

R = Me, isoPr, tert-Bu, Ph, 4-MeC6H4, 4-MeOC6H4, 4-CIC6H4, 4-N02C6H4 X = Cl, OH, PhCOO 

Acyl chlorides were also tested in acylations promoted by B(OTf)3.231 Acylation of benzene and toluene in competitive reactions (molar ratio = 5 1) with acetyl chloride shows high para selectivity (92-95% with 2.5-7% of meta, kT/kB — 31-73), whereas the para isomer is formed only with 72-75% selectivity (8-10% of meta, k lkK = 78) in benzoylation with benzoyl chloride. Acetylation appears not to be affected by significant isomerization as indicated by isomer distributions and relative reactivity data. 

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

Friedel-Crafts acylation of aromatic compounds (Section 12 7) Acyl chlorides and carboxylic acid anhydrides acylate aromatic rings in the presence of alumi num chloride The reaction is electrophil ic aromatic substitution in which acylium ions are generated and attack the ring... 

One of the most useful reac tions of acyl chlorides was presented in Section 12 7 Friedel-Crafts acylation of aromatic rings takes place when arenes are treated with acyl chlorides in the presence of aluminum chloride... 

Ttihaloacyl aromatics have been prepared by Friedel-Crafts acylation of aromatics with CX COCl (X = Cl, Br) in the presence of AlCl. They are used as monomers in the preparation of polycarbonates, polyesters, polyamides, polyketones, and polyurethanes (91). 

Ketone formation can also be avoided if one of the functional acyl halogens ia phosgene is blocked. Carbamyl chlorides, readily obtained by the reaction of phosgene with ammonia or amines, are suitable reagents for the preparation of amides ia direct Friedel-Crafts acylation of aromatics. The resulting amides can be hydroly2ed to the corresponding acids (134) ... 

When aiomatics aie present, they can capture the intermediate vinyl cation to give P-aryl-a,P-unsatutated ketones (182). Thus acylation of alkyl or aryl acetylenes with acyhum salts in the presence of aromatics gives a,P-unsaturated ketones with a trisubstituted double bond. The mild reaction conditions employed do not cause direct acylation of aromatics. 

An interesting class ot covalent Inflates are vin l and ar>/ or heteroaryl Inflates Vinyl inflates are used for the direct solvolytic generation of vinyl cations and for the generation of unsaturated carbenes via the a-elimination process [66] A triflate ester of 2-hydroxypyridine can be used as a catalyst for the acylation of aromatic compounds with carboxylic acids [109] (equation 55)... 

Triflates of aluminum, gallium and boron, which are readily available by the reaction of the corresponding chlorides with triflic acid, are effective Fnedel-Crafis catalysis for alkylation and acylation of aromatic compounds [119, 120] Thus alkylation of toluene with various alkyl halides m the presence of these catalysts proceeds rapidly at room temperature 111 methylene chloride or ni-tromethane Favorable properties of the triflates in comparison with the correspond mg fluorides or chlorides are considerably decreased volatility and higher catalytic activity [120]... 

Table 5.1-5 The acylation of aromatics in batch reactions at 100 °C, for 1 hour. Ratio of aromatic compound to acetylating agent = 5 1, mes. = mesitylene.

Alkylation and Acylation of Aromatic Rings The Friedel-Crafts Reaction 555... 

Smeets and Verhulst413 obtained cleanly second-order kinetics, equation (194) where n = 1 in the acylation of aromatics using bromobenzene as solvent... 

Acylation of aromatic rings with nitriles (Hoesch)... 

Ferrocene behaves in many respects like an aromatic electron-rich organic compound which is activated toward electrophilic reactions.In Friedel-Crafts type acylation of aromatic compounds with acyl halides, ferrocene is lO times more reactive than benzene and gives yields over 80%. However, ferrocene is different from benzene in respect to reactivity and yields in the Friedel-Crafts alkylation with alkyl halides or olefins. The yields of ferrocene alkylation are often very low. and the separations of the polysubstituted byproducts are tedious. 

Results obtained in the acylation of aromatic sulfonamides with acetic acid, in the presence of SnOTf based catalysts are presented in Table 48.4. The rate of the sulfonamide acylation follows the seqnence benzenesnlfonamide > p-nitrobenzenesulfonamide > />-methoxybenzenesnlfonamide, and is very sensitive towards the nature of the aromatic hydrogen substituent (the selectivity in acylated />-methoxybenzenesnlfonamide did not exceed 7% irrespective of the catalyst nature this corresponds to an approximate relative yield... 

Friedel-Crafts acylation is widely used for the production of aromatic ketones applied as intermediates in both fine chemicals and pharmaceutical industries. The reaction is carried out by using conventional homogenous catalysts, which represents significant technical and environmental problems. The present work reports the results obtained in the Friedel-Crafts acylation of aromatic substrates (anisole and 2-methoxynaphthalene) catalyzed by Beta zeolite obtained by crystallization of silanized seeds. This material exhibits hierarchical porosity and enhanced textural properties. For the anisole acylation, the catalytic activity over the conventional Beta zeolite is slightly higher than with the modified Beta material, probably due to the relatively small size of this substrate and the weaker acidity of the last sample. However, the opposite occurred in the acylation of a bulky substrate (2-methoxynaphthalene), with the modified Beta showing a higher conversion. This result is interpreted due to the presence of a hierarchical porosity in this material, which favors the accessibility to the active sites. 

Acylation of aromatic compounds (Friedel-Crafts (FC) acylation), of great industrial interest, suffers from an important catalysis problem [69]. Most of the Lewis acids used as catalysts (traditionally metal chlorides such as A1C13) complex preferentially... 

Tab. 7.8 Acylation of aromatic compounds in the presence of a small amount of graphite and under the action of MW irradiation [27, 66].

Friedel-Crafts acylation of aromatic ethers has been performed in the presence of a variety of metal chlorides and oxides (FeCl3, ZnCl2, A1C13, Fe203, Fe304, etc.) but without temperature control [52], Scheme 10.8. 

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