Friedel-Crafts catalyst mixed

As films are used e.g. the polymerization product of ethylbenzene and divinylbenzene (33) the copolymer of styrene and butadiene (755) the copolymer of styrene and butadiene mixed with polyethylene (157) a vulcanized or cyclized copolymer of an aromatic vinylcompound and an aliphatic conjugated polyene (2). As a crack resisting matrix is mentioned the copolymer of styrene, divinylbenzene and butadiene with e.g. dioctylphthalate as a plasticizer (176). Other examples are the copolymers of unsaturated aromatic compounds and unsaturated aliphatic compounds (77) and the reaction products of polyolefines and partially polymerized styrene (174). Primary groups can be introduced also with the help of Friedel-Crafts catalyst. Ts. Kuwata and co-workers treated a film of a copolymer of styrene and butadiene with an aluminium-ether complex and ethylenedichloride (79). Afterwards they allowed the film to react with trimethylamine. Another technique is the grafting of e.g. a polyethylene film with styrene (28). 

As we have shown here, shape-selective solid acids are very capable of replacing traditional Friedel-Crafts catalysts. Besides providing an environmental advantage, the higher selectivity can have economic advantages also. Often separation of the desired product from the product mix is easier, resulting in lower energy costs. 

Aryl- and alkyl-carboxylic dihalophosphoric anhydrides acylate activated arenes without the need for a conventional Friedel-Crafts catalyst. The anhydrides are prepared in situ, and the low temperatures required (20 C) allow reasonable yields of ketones to be obtained from mixed anhydrides of low stability, for example those derived from acetic and pivalic acids [equation (8)]. 

Aryltrifluoromethyl ketones are prepared by reaction of an aryl-lithium with a,a,a-trifluoro-N,N-dimethylacetamide. 2-Acyloxypyridines and N-acylimidazoles, " in conjunction with trifluoroacetic acid, acylate arenes in good yield without the need for a classical Friedel-Crafts catalyst or a preformed mixed anhydride. However, imidazole in trifluoroacetic anhydride is reported to form 2-aryl-Af,JV -diacyl-4-imidazolines with arenes reactive towards electrophilic attack. These adducts are readily hydrolysed by sodium hydroxide to the corresponding aldehyde [equation (14)]. This sequence may offer advantages over the Vilsmeier method of formylation, in that the aldehyde is introduced in a protected form. 

Toluene alkylation with methanol using Friedel-Crafts catalysts results in mixed products since isomerization reactions and fiirther methylation of the desired products readily occur under these reaction conditions [49,50]. Recent work has therefore been aimed at the development of processes with high selectivity, and zeolite catalysts appear to have the most promise in this regard. 

Friedel-Crafts alkylations are among the most important reactions in organic synthesis. Solid acid catalysts have advantages in ease of product recovery, reduced waste streams, and reduction in corrosion and toxicity. In the past, people have used (pillared) clays (18), heteropolyacids (19) and zeohtes (20) for Friedel-Craft alkylations, with mixed success. Problems included poor catalyst stabihty and low activity. Benzylation of benzene using benzyl chloride is interesting for the preparation of substitutes of polychlorobenzene in the apphcation of dielectrics. The performance of Si-TUD-1 with different heteroatoms (Fe, Ga, Sn and Ti) was evaluated, and different levels of Fe inside Si-TUD-1 (denoted Fei, Fe2, Fes and Feio) were evaluated (21). The synthesis procedure of these materials was described in detail elsewhere (22). 

We had no good way to predict if they would be liquid, but we were lucky that many were. The class of cations that were the most attractive candidates was that of the dialkylimidazolium salts, and our particular favorite was l-ethyl-3-methylimid-azolium [EMIM]. [EMlMJCl mixed with AICI3 made ionic liquids with melting temperatures below room temperature over a wide range of compositions [8]. We determined chemical and physical properties once again, and demonstrated some new battery concepts based on this well behaved new electrolyte. We and others also tried some organic reactions, such as Friedel-Crafts chemistry, and found the ionic liquids to be excellent both as solvents and as catalysts [9]. It appeared to act like acetonitrile, except that is was totally ionic and nonvolatile. 

Proton acids can be used as catalysts when the reagent is a carboxylic acid. The mixed carboxylic sulfonic anhydrides RCOOSO2CF3 are extremely reactive acylating agents and can smoothly acylate benzene without a catalyst.265 With active substrates (e.g., aryl ethers, fused-ring systems, thiophenes), Friedel-Crafts acylation can be carried out with very small amounts of catalyst, often just a trace, or even sometimes with no catalyst at all. Ferric chloride, iodine, zinc chloride, and iron are the most common catalysts when the reactions is carried out in this manner.266... 

It is known that certain Friedel-Crafts acylations of reactive aromatics may proceed with a small amount of catalyst or even, to some extent, with no catalyst at all.41 Effective catalysts are Fe, FeCl3, ZnCl2, iodine, and hydroiodic acid. However, satisfactory yields are usually obtained with activated and polynuclear aromatics, and heterocycles. The mixed anhydrides acyl triflates are also powerful acylating agents without catalyst.34... 

New Soluble Catalysts. Trifluoromethansulfonic acid (triflic acid, TfOH)42 and acyl triflates, that is mixed anhydrides of carboxylic acids and triflic acid,43 44 were first reported to be effective for Friedel-Crafts acylation in 1972. Significantly lower yields (<30%) were obtained with other Brpnsted acids. High activities were also observed for perfluorobutanesulfonic acid.37... 

The acylation of thiophenes has been reviewed (86HC(44/3)309). The best catalyst for the Friedel-Crafts acylation of thiophene, using free carboxylic acids, appears to be 2-(trifhioromethylsulfonyloxy)pyridine (84) in conjunction with TFA. 2-Acylthiophene is formed in quantitative yield, without any evidence of the thiophene dimerizing. The reaction might be mediated by the mixed anhydride (85) (Scheme 15) (88BCJ455) (cf. (84CHEC-(4)74l)). 

Ethylbenzene (boiling point 136°C, density 0.8672, flash point 21°C) is a colorless liquid that is manufactured from benzene and ethylene by several modifications of the older mixed liquid-gas reaction system using aluminum chloride as a catalyst (Friedel-Crafts reaction). The reaction takes place in the gas phase over a fixed-bed unit at 370 C under a pressure of 1450 to 2850 kPa. Unchanged andpolyethylated materials are recirculated, making a yield of 98 percent possible. The catalyst operates several days before requiring regeneration. 

Friedel-Crafts acylation. Using the AgC104-SiCl4 combination as catalyst, the acylation of arenes with free carboxylic acids and an aroic anhydride proceeds via the mixed anhydrides. 

Heteropoly acids (HPAs) are promising solid acid catalysts for the Friedel - Crafts They are stronger than many conventional solid acids such as mixed... 

The reaction was found particularly useful as a relatively selective and mild nitration method, for example allowing mononitration of durene and other highly alkylated benzenes, which with mixed acid usually undergo dinitration. (Table XIl). Methyl nitrate-boron trifluoride can also be used to achieve dinitration of tet-ramethylbenzenes by using two and three molar excess of methyl nitrate, respectively. Relative yields of mono- and dinitro product compositions are shown in Table XIII. Other Friedel-Crafts type catalysts can also be used, but boron trifluoride was found to be the most suitable. Aluminum trichloride and titanium (IV) chloride in the nitration of pentamethylbenzene caused formation of significant amounts of chlorinated derivatives, whereas sulfuric acid led to nitrodemethylation products. 

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