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Hydrogenation aromatic acids

Acetylenic aromatic acids having the triple bond Hanked by carboxyl and an aromatic ring were partially reduced to olefinic aromatic acids by chromous sulfate in aqueous dimethylformamide at room temperature in high yields. Phenylpropiolic acid afforded irani -cinnamic acid in 91% yield [195]. Its sodium salt in aqueous solution gave on catalytic hydrogenation over colloidal platinum at room temperature and atmospheric pressure 80% yield of cis-cinnamic acid if the reaction was stopped after absorption of 1 mol of hydrogen. Otherwise phenylpropanoic acid was obtained in 75-80% yield [992]. [Pg.141]

Aniline is an important derivative of benzene that can be made in two steps by nitration to nitrobenzene and either catalytic hydrogenation or acidic metal reduction to aniline. Both steps occur in excellent yield. Almost all nitrobenzene manufactured (97%) is directly converted into aniline. The nitration of benzene with mixed acids is an example of an electrophilic aromatic substitution involving the nitronium ion as the attacking species. The hydrogenation of nitrobenzene has replaced the iron-... [Pg.195]

Properties. Vanillin is a colorless crystalline solid mp 82-83 °C) with a typical vanilla odor. Because it possesses aldehyde and hydroxyl substituents, it undergoes many reactions. Additional reactions are possible due to the reactivity of the aromatic nucleus. Vanillyl alcohol and 2-methoxy-4-methylphenol are obtained by catalytic hydrogenation vanillic acid derivatives are formed after oxidation and protection of the phenolic hydroxyl group. Since vanillin is a phenol aldehyde, it is stable to autoxidation and does not undergo the Cannizzarro reaction. Numerous derivatives can be prepared by etherification or esterification of the hydroxyl group and by aldol condensation at the aldehyde group. Several of these derivatives are intermediates, for example, in the synthesis of pharmaceuticals. [Pg.134]

Aromatic Acids The molecular ion peak of aromatic acids is large. The other prominent peaks are formed by loss of OH (M - 17) and of C02H (M — 45). Loss of H20 (M - 18) is noted if a hydrogen-bear-... [Pg.26]

Bis(triphenylphosphine)copper(i) tetrahydroborate [(Ph3P)2CuBH4] has found use as a reagent for the reduction of aliphatic and aromatic acid chlorides to the corresponding aldehyde, and is an alternative to the standard Rosenmund procedure. This is illustrated in Expt 6.120. The reagent may be prepared by either of the following two methods both preparations should be conducted in an efficient fume cupboard as hydrogen is evolved. [Pg.449]

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See also in sourсe #XX -- [ Pg.140 , Pg.195 ]



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Aromatic hydrogen

Aromatic hydrogenation

Aromatics hydrogenation

Carboxylic acids, aromatic hydrogenation

Hydrogen aromaticity

Hydrogenated aromatics

Hydrogenation of aromatic carboxylic acids

Replacement of hydrogen by halogen in phenols, hydroxyphenylalkanoic acids, aryl ethers, and aromatic amines

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