Benzaldehyde benzoyl chloride

Triarylbismuthine A -tosylimides react with benzaldehyde, benzoyl chloride and phenyl isocyanate to give A -tosylimine, A-tosylamide and A -tosylurea derivatives, respectively [91CL105] (Section 5.5.2.3). The imides oxidize secondary and benzylic alcohols to carbonyl compounds, sometimes accompanied by the concurrent formation of a diaryl(A -tosylamino)bismuthine [96JCR(S)24] (Section 5.2.4). When treated with acetic acid, the imides are converted to the corresponding triarylbismuth diacetates and sulfonamides (Scheme 3.9). 

Dumas, working with the French apothecary Pierre Francois Guillaume Boullay, first proposed that the ethylene group (a two-carbon chain) could serve as the radical base for alcohol and related compounds. The concept of radicals received further support when Liebig and Wohler published their work on oil of bitter almonds. They found a family of compounds— benzoic acid, benzoin, benzaldehyde, benzoyl chloride, benzoyl bromide, benzoyl iodide, benzoyl cyanide, benzoyl... 

Nitration using this reagent was first investigated, by Francis. He showed that benzene and some of its homologues bromobenzene, benzonitrile, benzoyl chloride, benzaldehyde and some related compounds, and phenol were mono-nitrated in solutions of benzoyl nitrate in carbon tetrachloride anilines would not react cleanly and a series of naphthols yielded dinitro compounds. Further work on the orientation of substitution associated this reagent with higher proportions of o-substitution than that brought about by nitric acid this point is discussed below ( 5.3.4). 

Benzyl Chloride. Benzyl chloride is manufactured by high temperature free-radical chlorination of toluene. The yield of benzyl chloride is maximized by use of excess toluene in the feed. More than half of the benzyl chloride produced is converted by butyl benzyl phthalate by reaction with monosodium butyl phthalate. The remainder is hydrolyzed to benzyl alcohol, which is converted to ahphatic esters for use in soaps, perfume, and davors. Benzyl salicylate is used as a sunscreen in lotions and creams. By-product benzal chloride can be converted to benzaldehyde, which is also produced directiy by oxidation of toluene and as a by-product during formation of benzoic acid. By-product ben zotrichl oride is not hydrolyzed to make benzoic acid but is allowed to react with benzoic acid to yield benzoyl chloride. 

The only industrially important processes for the manufacturing of synthetic benzaldehyde involve the hydrolysis of benzal chloride [98-87-3] and the air oxidation of toluene. The hydrolysis of benzal chloride, which is produced by the side-chain chlorination of toluene, is the older of the two processes. It is no longer utilized ia the United States. Other processes, including the oxidation of benzyl alcohol, the reduction of benzoyl chloride, and the reaction of carbon monoxide and benzene, have been utilized ia the past, but they no longer have any iadustrial appHcation. 

Nearly all of the benzyl chloride [100-44-7], henzal chloride [98-87-3], and hen zotrichl oride /P< -(97-i manufactured is converted to other chemical intermediates or products by reactions involving the chlorine substituents of the side chain. Each of the compounds has a single primary use that consumes a large portion of the compound produced. Benzyl chloride is utilized in the manufacture of benzyl butyl phthalate, a vinyl resin plasticizer benzal chloride is hydrolyzed to benzaldehyde hen zotrichl oride is converted to benzoyl chloride. Benzyl chloride is also hydrolyzed to benzyl alcohol, which is used in the photographic industry, in perfumes (as esters), and in peptide synthesis by conversion to benzyl chloroformate [501-53-1] (see Benzyl ALCOHOL AND p-PHENETHYL ALCOHOL CARBONIC AND CARBONOCm ORIDIC ESTERS). 

Nearly all of the benzal chloride produced is consumed in the manufacture of benzaldehyde. Benzaldehyde (qv) is used in the manufacture of perfume and flavor chemicals, dyes, and pharmaceuticals. The principal part of benzotrichloride production is used in the manufacture of benzoyl chloride (see Benzoic acid). Lesser amounts are consumed in the manufacture of benzotrifluoride, as a dyestuff intermediate, and in producing hydroxybenzophenone ultraviolet light stabilizers. Benzotrifluoride is an important intermediate in the manufacture of herbicides, pharmaceuticals, antimicrobial agents, and the lampreycide, 4-nitro-3-(trifluorometh5l)phenol [88-30-2]. 

Benzyl benzoate has been identified in certain natural plant products.1 In the laboratory it has been prepared by the action of (a) benzoyl chloride upon benzyl alcohol,2 (b) benzyl chloride upon sodium benzoate, and (c) alcoholates upon benzaldehyde.3 Recently, Gomberg and Buchler 4 have shown that reaction (b) may be conducted even with aqueous solutions of sodium benzoate. 

Four isobutylamide analogs of the natural products were synthesized in order to compare their insecticidal efficacy with that of the natural products. The synthetic scheme for the preparation of cis-fagaramide ( ) is shown in Figure 1. The syntheses of the cis (9) and trans (8) isomers of N -isobutyl-cinnamamide were accomplished by procedures similar to those utilized in the preparation of the cis (7) and trans (1 ) isomers of fagaramide, with the exception that benzaldehyde was used as starting material in the former case, piperonal in the latter. Isobutylbenzamide (10) was synthesized from benzoyl chloride and isobutylamine. 

A hydrogen attached to a pyridine or pyridine 1-oxide nucleus cannot be replaced directly by cyanide however, addition of cyanide to various quaternary salts constitutes an important class of reactions of synthetic importance. Before surveying these reactions in detail, the four main classes are outlined. In 1905, Reissert reported the first example, the reaction of quinoline with benzoyl chloride in aqueous potassium cyanide (Scheme 111) (05CB1603). This yielded a crystalline product, C17H12N2O, a Reissert compound (176) which afforded benzaldehyde and quinaldinic acid on acid hydrolysis (Scheme 111). Kaufmann (09CB3776) treated a 1 -methylquinolinium salt with aqueous potassium cyanide and observed 1,4-rather than 1,2-addition (Scheme 112), the Reissert-Kaufmann reaction. Reissert compounds are well known in the quinoline and isoquinoline series, but only rarely have even small yields been found in the pyridine series. On the other hand, cyanide ions add 1,4 with ease to pyridinium salts that have an electron withdrawing substituent at C-3. 

No studies were available on the disposition of benzotrichloride, benzal chloride or benzoyl chloride. Benzyl chloride is rapidly absorbed and distributed from the gastrointestinal tract. Excretion is mainly in urine as S -benzyl-A-acetylcysteine, benzyl alcohol and benzaldehyde. 

Benzoyl chloride, [98-88-4], C6HbCOC1, mp, — 1°C bp, 197.2°C at 101.3 kPa df, 1.2070 n], 1.55369. Benzoyl chloride is a colorless liquid that fumes upon exposure to the atmosphere, has a sharp odor, and in vapor form is a strong lachrimator. It is decomposed by water and alcohol, and is miscible with ether, benzene, carbon disulfide, and oils. Benzoyl chloride may be prepared in several ways, including the partial hydrolysis of benzotrichloride, the chlorination of benzaldehyde, and from benzoic acid and phosphorus pentachloride. The most common method is the reaction of benzoic acid and benzotrichloride [98-07-7]. Since benzoic acid may be easily obtained from benzotrichloride, the latter is used as the sole raw material for large-scale production of benzoyl chloride. 

Ethyl 6-methyl-9-hydrazono-4-ozo-6,7,8,9-tetrahydro-4//-pyrido[l,2-a]-pyrimidines was condensed with benzaldehyde to yield a mixture of tetra-hydro and dihydropyrido[l,2-a]pyrimidines (254 and 255) and was acylated with benzoyl chloride.307... 

Scheme 16 shows parallel syntheses of cyclic and acyclic amide compounds. Fluorous benzaldehydes were first subjected to reductive amination reactions. The resulting amines were then reacted with isocyanates to form substituted hydantoin rings 14 or with benzoyl chlorides to form amides 15. Purified F-sulfonates were used for palladium-catalyzed cross-coupling reactions to form corresponding biaryl 16 [31] and arylsulfide 17 [32] products, respectively. 

Nickel-catalyzed aryl-aryl coupling, 66, 70 m-Nitrobenzaldehyde Benzaldehyde, 3-nitro- (99-61-6), 67, 180 p-Nitrobenzoyl chloride Benzoyl chloride, 4-nitro- (122-04-3), 67, 86 2-Nitrocyclohexane-1,3-diol, (1R,2r,3S) 1,3-Cyclohexanediol, 2-nitro-,... 

The silicon-heterocyclic bond of 2-trimethylsilylbenzothiazole (225) is unusually labile. It is cleaved smoothly by benzaldehyde, with formation of the silyl ether (226) which is hydrolyzed to the alcohol (227) the cleavage by benzoyl chloride affords the corresponding ketone (228 Scheme 155). 

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