Nitrocompounds alcohol oxidant

Compounds related to aniline, either directly or by oxidation, and to nitrobenzene by reduction, are numerous and important. When nitrobenzene is reduced in the presence of hydrochloric acid by tin or iron, the product is aniline (colorless liquid in die presence of water by zinc, the product is phenylhydroxylamine (white solid) in the presence of methyl alcohol by sodium alcoholate 01 by magnesium plus ammonium chloride solution, the product is azoxybenzene (pale yellow solid) by sodium stannitc, or by water plus sodium amalgam, the product is azobcnzcnc (red solid) in the presence of sodium hydroxide solution by zinc, the product is hydrazobenzene (pale yellow solid). The behavior of other nitrocompounds is similar to that of nitrobenzene. 

Nitrocompounds resist the action of PDC during the oxidation of alcohols.157 On rare occasions, PDC can promote the attack of nucleophiles on nitro groups, in a similar manner to the one observed with Jones reagent (see page 10). 

The most important applications of peroxyacetic acid are the epoxi-dation [250, 251, 252, 254, 257, 258] and anti hydroxylation of double bonds [241, 252, the Dakin reaction of aldehydes [259, the Baeyer-Villiger reaction of ketones [148, 254, 258, 260, 261, 262] the oxidation of primary amines to nitroso [iJi] or nitrocompounds [253], of tertiary amines to amine oxides [i58, 263], of sulfides to sulfoxides and sulfones [264, 265], and of iodo compounds to iodoso or iodoxy compounds [266, 267] the degradation of alkynes [268] and diketones [269, 270, 271] to carboxylic acids and the oxidative opening of aromatic rings to aromatic dicarboxylic acids [256, 272, 271, 272,273, 274]. Occasionally, peroxyacetic acid is used for the dehydrogenation [275] and oxidation of aromatic compounds to quinones [249], of alcohols to ketones [276], of aldehyde acetals to carboxylic acids [277], and of lactams to imides [225,255]. The last two reactions are carried out in the presence of manganese salts. The oxidation of alcohols to ketones is catalyzed by chromium trioxide, and the role of peroxyacetic acid is to reoxidize the trivalent chromium [276]. 

DIETHYLENEIMIDE OXIDE, DIETHYLENIMIDE OXIDE, or DIETHYLENE IMIDOXIDE (110-91-8) Forms explosive mixture with air (flash point 98°F/37°C). A strong organic base. Violent reaction with acids, strong oxidizers, cellulose nitrate, nitromethane. Incompatible with organic anhydrides, isocyanates, vinyl acetate, acrylates, substituted allyls, alkylene oxides, epichlorohydrin, ketones, aldehydes, alcohols, glycols, phenols, cresols, caprolactam solution, nitrocompounds, perchlorates. Attacks aluminum, copper, lead, tin, zinc, and their alloys, and some plastics, rubber, and coatings. 

Organic compounds such as aldehydes, alcohols, aliphatic, and aromatic 1,2-diols, nitrocompounds, and sugars have been determined by using two types of redox reactions. The analyte may be reduced with a metal ion in solution and the metal precipitate formed dissolved in nitric acid, and determined by AAS. Alternatively, the unreduced metal may be determined. The other type of method is based on the oxidation of the analyte with periodic acid or potassium permanganate, and addition of metal ion solution. The added metal ion forms, with the oxidized form of the analyte, either an insoluble compound or an uncharged metal complex which can be extracted into the organic phase. The atomic absorption of the metal ion is determined after dissolution of the precipitate or solvent extraction. 

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