Friedel-Crafts acylation methods

Diaryl ketones. A Friedel-Crafts acylation method is shown in the following equation ... 

Prepare a ketone from each of the following precursors by the Friedel-Crafts acylation method. 

Preparation of Dimethylacetophenones by the Friedel-Crafts Acylation Method 3 ... 

Friedel-Crafts Acylation. The Friedel-Crafts acylation procedure is the most important method for preparing aromatic ketones and thein derivatives. Acetyl chloride (acetic anhydride) reacts with benzene ia the presence of aluminum chloride or acid catalysts to produce acetophenone [98-86-2], CgHgO (1-phenylethanone). Benzene can also be condensed with dicarboxyHc acid anhydrides to yield benzoyl derivatives of carboxyHc acids. These benzoyl derivatives are often used for constmcting polycycHc molecules (Haworth reaction). For example, benzene reacts with succinic anhydride ia the presence of aluminum chloride to produce P-benzoylpropionic acid [2051-95-8] which is converted iato a-tetralone [529-34-0] (30). 

Anthraquinone dyes are derived from several key compounds called dye intermediates, and the methods for preparing these key intermediates can be divided into two types (/) introduction of substituent(s) onto the anthraquinone nucleus, and (2) synthesis of an anthraquinone nucleus having the desired substituents, starting from benzene or naphthalene derivatives (nucleus synthesis). The principal reactions ate nitration and sulfonation, which are very important ia preparing a-substituted anthraquiaones by electrophilic substitution. Nucleus synthesis is important for the production of P-substituted anthraquiaones such as 2-methylanthraquiQone and 2-chloroanthraquiaone. Friedel-Crafts acylation usiag aluminum chloride is appHed for this purpose. Synthesis of quinizatia (1,4-dihydroxyanthraquiQone) is also important. 

Diels-Alder reactions, 4, 842 flash vapour phase pyrolysis, 4, 846 reactions with 6-dimethylaminofuKenov, 4, 844 reactions with JV,n-diphenylnitrone, 4, 841 reactions with mesitonitrile oxide, 4, 841 structure, 4, 715, 725 synthesis, 4, 725, 767-769, 930 theoretical methods, 4, 3 tricarbonyl iron complexes, 4, 847 dipole moments, 4, 716 n-directing effect, 4, 44 2,5-disubstituted synthesis, 4, 116-117 from l,3-dithiolylium-4-olates, 6, 826 electrocyclization, 4, 748-750 electron bombardment, 4, 739 electronic deformation, 4, 722-723 electronic structure, 4, 715 electrophilic substitution, 4, 43, 44, 717-719, 751 directing effects, 4, 752-753 fluorescence spectra, 4, 735-736 fluorinated derivatives, 4, 679 H NMR, 4, 731 Friedel-Crafts acylation, 4, 777 with fused six-membered heterocyclic rings, 4, 973-1036 fused small rings structure, 4, 720-721 gas phase UV spectrum, 4, 734 H NMR, 4, 7, 728-731, 939 solvent effects, 4, 730 substituent constants, 4, 731 halo... 

The most important method for the synthesis of aromatic ketones 3 is the Friedel-Crafts acylation. An aromatic substrate 1 is treated with an acyl chloride 2 in the presence of a Lewis-acid catalyst, to yield an acylated aromatic compound. Closely related reactions are methods for the formylation, as well as an alkylation procedure for aromatic compounds, which is also named after Friedel and Crafts. 

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. 

While the Friedel-Crafts acylation is a general method for the preparation of aryl ketones, and of wide scope, there is no equivalently versatile reaction for the preparation of aryl aldehydes. There are various formylation procedures known, each of limited scope. In addition to the reactions outlined above, there is the Vdsmeier reaction, the Reimer-Tiemann reaction, and the Rieche formylation reaction The latter is the reaction of aromatic compounds with 1,1-dichloromethyl ether as formylating agent in the presence of a Lewis acid catalyst. This procedure has recently gained much importance. 

Polyphosphoric acid is a commonly used catalyst for this reaction however, in some cases a mixture of hydrogen bromide/acetic acid gives better results. Acylation of the S-phenyl-, V-(4-tolyl)- or S-(l-naphthyl)-substituted thiobenzenepyruvic acids 3a-c affords the corresponding dibenzo[A,/]thiepins in satisfactory yields, while reaction of the S-(4-methoxyphenyl) or S-(2-naphthyl) derivatives fails to provide any thiepin.60 The intramolecular Friedel-Crafts acylation of 2-(arylsulfanyl)benzeneacetic acids also yields the corrresponding dibenzothiepins in this case the use of hydrogen fluoride sometimes results in purer products.38 The applicability of this method is restricted to the synthesis of stable bisannulated thiepins. 

Diaryl sulfones can be formed by treatment of aromatic compounds with aryl sulfonyl chlorides and a Friedel-Crafts catalyst. This reaction is analogous to Friedel-Crafts acylation with carboxylic acid halides (11-14). In a better procedure, the aromatic compound is treated with an aryl sulfonic acid and P2O5 in polypho-sphoric acid. Still another method uses an arylsulfonic trifluoromethanesulfonic anhydride (ArS020S02CF3) (generated in situ from ArS02Br and CF3S03Ag) without a catalyst. ... 

Titanium-mediated intramolecular Friedel-Crafts acylation and alkylation are important methods for construction of fused-ring systems (Scheme 29).107 As well as aromatics, olefin units also react in the same way.108 Alkylation of electron-rich olefins such as enol ethers or silyl enol ethers proceeds effectively in the presence of TiCl4.109... 

The present work reports the results obtained in the Friedel-Crafts acylation of different aromatic substrates catalyzed by zeolite Beta obtained according to a novel method based on the crystallization of silanized seeds, as a way to perturb the subsequent crystal growth step and to modify the zeolite textural properties [5], The catalytic behavior of this material is compared with that of the conventional Beta zeolite. 

Anthraquinone itself is traditionally available from the anthracene of coal tar by oxidation, often with chromic acid or nitric acid a more modern alternative method is that of air oxidation using vanadium(V) oxide as catalyst. Anthraquinone is also produced in the reaction of benzene with benzene-1,2-dicarboxylic anhydride (6.4 phthalic anhydride) using a Lewis acid catalyst, typically aluminium chloride. This Friedel-Crafts acylation gives o-benzoylbenzoic acid (6.5) which undergoes cyclodehydration when heated in concentrated sulphuric acid (Scheme 6.2). Phthalic anhydride is readily available from naphthalene or from 1,2-dimethylbenzene (o-xylene) by catalytic air oxidation. 

A Friedel-Crafts acylation is a synthetic method that avoids the problem of rearrangement of the cation. Figure 7-10 illustrates the generation of the electrophile (the acylium ion) from an acid chloride. The presence of resonance stabilizes the acylium ion, and that reduces the possibility of rearrangement. 

Recently, the same authors reported a different route for the total synthesis of olivacine (238a) and ellipticine (228) starting from 2,4,6-tiimethoxypyiidine (1244) with N-benzylindole-2,3-dicarboxylic anhydride (852) (717,718). Interestingly, this method also uses the same common precursor, N-benzylindole-2,3-dicarboxylic anhydride (852) as shown in Schemes 5.204 and 5.205. Contrary to the earlier route, this sequence involves a Friedel-Crafts acylation of 2,4,6-trimethoxypyridine (1244) with N-benzylindole-2,3-dicarboxylic anhydride (852) (717,718). 

The most important method for the preparation of aryl ketones is known as Friedel-Crafts acylation.26t The reaction is of wide scope. Reagents used262 are not only acyl halides but... 

The sequence of addition of the reagents also affect Friedel-Crafts acylations. The most satisfactory procedure, which is actually the same what Friedel and Crafts originally used, is the addition of the catalyst as the last reactant. Another possibility also used very often is the Perrier method. It involves the prior preparation of the complex in a solvent followed by the addition of the aromatic reagent. 

Furyl ketones can be easily obtained by Friedel-Crafts acylation of furans. They can also be obtained from derivatives of furan-2-carboxylic acid such as the amides, nitriles and chlorides by literature reactions. The 3-furyl ketones are also obtained by similar methods. 

Bromination, chlorination, nitration and Friedel-Crafts acylation of chroman give the 6-substituted derivatives in good yields by standard methods. When 6,8-dimethyl-chromanone (677) is warmed with formaldehyde in sulfuric acid, hydroxymethylation at C-5 occurs (78BCJ1874). 

The use of modern physical methods (NMR, UV, and IR spectroscopy, mass spectrometry, and gas-liquid (GLC) and thin-layer (TLC) chromatography is becoming increasingly noticeable. By 19522 few systematic studies of the preparation of derivatives of benzo [6]thiophene had been undertaken, no attempt had been made to alkylate benzo[6]thiophene by means of the Friedel-Crafts reaction, and Friedel-Crafts acylation had been little studied. Halogenation of benzo[6]thiophene had only been superficially investigated and... 

Friedel-Crafts acylation of benzo[6]thiophene and its derivatives with succinic anhydride132,439,662,663 or the ester chloride of succinic acid614, 618, 650,662 gives a y-keto acid (or ester), which is reduced to the corresponding y-(benzo[6]thienyl)butyric acid by the Huang Minion or Clemmensen method. y-(Benzo[6]thienyl)butyric acids may alternatively be prepared by the diethyl malonate synthesis on the appropriate halide,439,499 by the Arndt-Eistert reaction on the corresponding propionyl chloride,409,618 or by cyclization.347,618 The ketones (317 R = Hor OMe)347 have been prepared by cyclization... 

Aryl alkyl ketones are readily prepared by the Friedel-Crafts acylation process (see Section 6.11.1, p. 1006) and their Clemmensen reduction constitutes a more efficient procedure for the preparation of monoalkylbenzenes than the alternative direct Friedel-Crafts alkylation reaction (see below). Alternatively aldehydes and ketones may be reduced to the corresponding hydrocarbon by the Wolff-Kishner method which involves heating the corresponding hydrazone or semicarbazone with potassium hydroxide or with sodium ethoxide solution. 

The various methods for introducing a formyl group (—COH) into a phenolic nucleus are discussed in Section 6.10.1, p. 990. The formation of phenolic ketones (e.g. HO-C6H4-COR) by the standard Friedel-Crafts acylation procedure (i.e. the reaction of a phenol with an acid chloride in the presence of aluminium chloride) does not always give acceptable yields except in the case of polyhydroxyphenols (p. 1006). The preferred method is to convert the phenol into the phenyl ester and to subject this to rearrangement (the Fries reaction) in the presence of aluminium chloride. 

Reviews. Simchen et al.6 have reviewed use of trialkylsilyl triflates for silylation and as catalysts in Friedel-Crafts acylations (191 references). The review includes a method for recovery of triflic acid from the triethylammonium triflates formed in silylation in the presence of triethylamine. 

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