Replacement of the diazonium group by chlorine

Chlorobromobenzene has been prepared by the diazotiza-tion of o-bromoaniline followed by replacement of the diazonium group by chlorine 1 by the elimination of the amino group from 3-chloro-4-bromoaniline 2 by the chlorination of bromobenzene in the presence of thallous chloride,3 aluminum chloride,4 or ferric chloride 4 by the bromination of chlorobenzene without a catalyst6 or in the presence of aluminum,4 iron,4 or ferric bromide 6 by the diazotization of o-chloroaniline followed by replacement of the diazonium group with bromine 4,6 and from o-chlorophenylmercurie chloride by the action of bromine.7... 

Replacement of the Diazonium Group by Chlorine or Bromine Chloro-de-diazoniation, etc. 

The replacement of the diazonium group by chlorine or bromine is accomplished using the Sandmeyer reaction Replacement with fluorine and iodine can be achieved by variations of this reaction. 

Preparation by diazotization of 5-amino-2-hydroxyacetophenone and replacement of the diazonium group by chlorine (Sandmeyer reaction) [2016]. 

In aqueous solution, diazonium salts show absorption maxima in the ultraviolet (UV) region benzenediazonium ion has 261 nm (log e 4.3) and 300 nm (log e 3.17). Both absorption bands are shifted toward the visible by electron-donating substituents 4-dimethylaminobenzenediazonium has 382 nm (log e 4.6). Photolysis in aqueous solution leads to phenol as the main product, according to Scheme 1. Some replacement of the diazonium group by an atom of chlorine or bromine is also found in solutions containing chloride or bromide ions. ... 

It has been demonstrated that the presence of chlorine or bromine in the nucleus facilitates replacement of the diazo group by hydrogen little or no ether formation occurs.26 Apparently iodine also favors the redudng action of alcohols, but this point has not been investigated carefully.26 27 No attempts to deaminate fluorinated amines are recorded. Representative of the effitiency with which ethanol reduces diazonium salts derived from halogenated amines are the deaminations of m-chloroaniline 26 (87% yield), of 2-bromo-4-methylaniline 28 (67% yield), of 2,4,6-tribfomoaniline 29 (ca. 80% yield), and of 2-carboxy-4-iodoaniline30 (ca. 45% yield) in the biphenyl series the deamination of VIII in 53% yield 31 may be dted. 

Chlorotoluene has been obtained by the action of chlorine on toluene in the presence of various catalysts 5 by the action of sulfuryl chloride on toluene in the presence of aluminum chloride 6 by the electrolytic reduction of -chlorobenzalde-hyde 7 by the diazotization of -toluidine followed by replacement of the diazonium salt group with chlorine.8... 

This reaction can be employed to remove a primary amino group from an aromatic compound, especially. when the ordinary method of direct reduction of the diazonium compound by sodium stannite or alcohol is not applicable. Although in the application of this method the hydrazine can be prepared as the hydrochloride, and reduced in the same solution, yet it is better to isolate the free base and oxidise it separately, since in the oxidation of the hydrochloride there is a tendency for the hydrazine radical to be replaced by chlorine. 

Introduction. In the preceding experiment it was shown that an aqueous solution of a diazonium salt treated with a solution of an alkali iodide gives iodobenzene. The replacement of the diazo group, N2X, by chlorine or bromine atoms involves the catalytic action of copper salts. Thus, benzenediazonium chloride warmed with a solution of cuprous chloride and hydrochloric acid gives chlorobenzene with cuprous bromide, bromobenzene is formed. The use of the cuprous salt is known as the Sandmeyer method. Instead of cuprous salts, finely divided copper may be used according to Gatterman s method. 

Replacement of chlorine on the pendant benzoyl group by azide is apparently consistent with antiinflammatory activity. Acylation of indomethacin intermediate with p-nitrobenzoyl chloride leads to the corresponding amide (7). Saponification ( ) followed by reduction of the nitro group gives the amine 9. The diazonium salt (10) obtained on treatment with nitrous acid is then reacted with sodium azide there is thus obtained zidomethacin (11). 

As has already been noted in the section on ethanol deaminations, upon diazotizing some nitroamines in hydrochloric acid, a diazonium salt is obtained in which the nitro group has been replaced by chlorine (pp. 272-273). Consequently, hypophosphorous acid reduction gives a deaminated product Containing chlorine in place of the nitro group. For example, when 5-amino-8-nitroisoquinoline (XVIII) is diazotized with hydrochloric acid and then treated with hypophosphorous acid, 8-chloro-isoquinohne (XIX) is obtained in 60-70% yield instead of 8-nitro-isoquinoline.86... 

The diazonium salts usually decompose when warmed with water to give a phenol and nitrogen. When treated with CuCl, CuBr, KI, the diazo group is replaced by chlorine, bromine or iodine respectively (Sandmeyer reaction). A diazonium sulphate and hydroxyl-amine give an azoimide. The diazonium salt of anthranilic acid (2-aminobenzoic acid) decomposes to give benzyne. ... 

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