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Aromatic chlorides, carbonylation

Therefore, reaction of iminium chlorides, or their complexes with phosphorus oxychloride, thionyl chloride, carbonyl chloride, etc., with suitable substrates, such as aromatic hydrocarbons, activated methylene compounds and nucleophilic olefins, occurs quite readily. The overall reaction generally results in the formylation of the corresponding substrate. [Pg.88]

A process has been suggested that uses carbon monoxide, an aromatic dichloride and a diamine. As catalyst, a palladium complex is used, bis(triphenylphosphine)palladium(II)chloride. The catalyst induces the carbonylation of aryl aromatic chlorides. [Pg.428]

Hammen equation A correlation between the structure and reactivity in the side chain derivatives of aromatic compounds. Its derivation follows from many comparisons between rate constants for various reactions and the equilibrium constants for other reactions, or other functions of molecules which can be measured (e g. the i.r. carbonyl group stretching frequency). For example the dissociation constants of a series of para substituted (O2N —, MeO —, Cl —, etc.) benzoic acids correlate with the rate constant k for the alkaline hydrolysis of para substituted benzyl chlorides. If log Kq is plotted against log k, the data fall on a straight line. Similar results are obtained for meta substituted derivatives but not for orthosubstituted derivatives. [Pg.199]

The phenylacetic acid derivative 469 is produced by the carbonylation of the aromatic aldehyde 468 having electron-donating groups[jl26]. The reaction proceeds at 110 C under 50-100 atm of CO with the catalytic system Pd-Ph3P-HCl. The reaction is explained by the successive dicarbonylation of the benzylic chlorides 470 and 471 formed in situ by the addition of HCl to aldehyde to form the malonate 472, followed by decarboxylation. As supporting evidence, mandelic acid is converted into phenylacetic acid under the same reaction conditions[327]. [Pg.192]

Preparation of Arylcarboxylic Acids and Derivatives. The general Friedel-Crafts acylation principle can be successfully appHed to the preparation of aromatic carboxyUc acids. Carbonyl haUdes (phosgene, carbonyl chloride fluoride, or carbonyl fluoride) [353-50-4] are diacyl haUdes of carbonic acid. Phosgene [75-44-5] or oxalyl chloride [79-37-8] react with aromatic hydrocarbons to give aroyl chlorides that yield acids on hydrolysis (133) ... [Pg.560]

These reversible reactions are cataly2ed by bases or acids, such as 2iac chloride and aluminum isopropoxide, or by anion-exchange resias. Ultrasonic vibrations improve the reaction rate and yield. Reaction of aromatic aldehydes or ketones with nitroparaffins yields either the nitro alcohol or the nitro olefin, depending on the catalyst. Conjugated unsaturated aldehydes or ketones and nitroparaffins (Michael addition) yield nitro-substituted carbonyl compounds rather than nitro alcohols. Condensation with keto esters gives the substituted nitro alcohols (37) keto aldehydes react preferentially at the aldehyde function. [Pg.100]

Comparison of Table 5.4 and 5.7 allows the prediction that aromatic oils will be plasticisers for natural rubber, that dibutyl phthalate will plasticise poly(methyl methacrylate), that tritolyl phosphate will plasticise nitrile rubbers, that dibenzyl ether will plasticise poly(vinylidene chloride) and that dimethyl phthalate will plasticise cellulose diacetate. These predictions are found to be correct. What is not predictable is that camphor should be an effective plasticiser for cellulose nitrate. It would seem that this crystalline material, which has to be dispersed into the polymer with the aid of liquids such as ethyl alcohol, is only compatible with the polymer because of some specific interaction between the carbonyl group present in the camphor with some group in the cellulose nitrate. [Pg.88]

The behavior of such activated halides as alkylating agents under Friedel-Crafts conditions expands the scope of the synthesis. Aluminum chloride enhances the electrophilic character of the a,/S-unsaturated carbonyl system and permits the nucleophilic attachment of the aromatic addendum (Y ) to the carbon bearing the positive charge, with displacement of halogen [Eq. (5)]. Thus,... [Pg.79]

A novel application of a phenyl aryldiazosulfone was found by Kessler et al. (1990). l-[4-(7V-Chlorocarbonyl-7V-methylamino)phenyl]-2-(phenylsulfonyl)diazene (6.18) is an acid chloride with a potential diazonio group. The above authors showed that in organic solvents (THF, etc.) this compound reacts easily, as expected, with nucleophiles (HNu), e.g., with aliphatic, aromatic, or heterocyclic amines, with cystine dimethyl ester, or with 4-methoxyphenol at the carbonyl function, yielding... [Pg.118]

See other pages where Aromatic chlorides, carbonylation is mentioned: [Pg.279]    [Pg.327]    [Pg.526]    [Pg.214]    [Pg.28]    [Pg.369]    [Pg.16]    [Pg.551]    [Pg.517]    [Pg.376]    [Pg.311]    [Pg.120]    [Pg.55]    [Pg.586]    [Pg.234]    [Pg.78]    [Pg.357]    [Pg.397]    [Pg.142]    [Pg.1309]    [Pg.76]    [Pg.548]    [Pg.636]    [Pg.101]    [Pg.907]    [Pg.16]    [Pg.95]    [Pg.71]    [Pg.116]    [Pg.165]    [Pg.322]    [Pg.393]    [Pg.72]    [Pg.421]    [Pg.534]    [Pg.232]    [Pg.299]    [Pg.147]    [Pg.8]    [Pg.85]   
See also in sourсe #XX -- [ Pg.30 ]



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Aromatic carbonyl

Carbonyl chlorid

Carbonyl chloride

Chlorides aromatic

Chlorides carbonylation

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