Fifty grams (0.13 mole) of 2,6-diiodo-4-nitroaniline (p. 196) is dissolved in
200 cc. of concentrated sulfuric acid (sp. gr. 1.84) in a
1-l. two-or three-necked flask provided with a mechanical stirrer. The solution is cooled to 5° in an ice-salt mixture, and to it is added with stirring a mixture of
100 cc. of concentrated sulfuric acid and 12 g. (0.17 mole) of sodium nitrite, also cooled to 5° (Note
1). To liberate
nitrous acid from the
nitrosylsulfuric acid, there is then added slowly from a
separatory funnel, with rapid stirring,
200 cc. of 85 per cent phosphoric acid (151 cc. of u.s.p. phosphoric acid diluted to 200 cc.). During the addition the temperature is kept below 10°. The mixture is removed from the
ice-salt bath and stirred until diazotization is complete (one to two hours) (Note
2). At the end of this time the solution is poured, with stirring, into 2 l. of a mixture of cracked ice and water in a
4-l. beaker. To destroy excess
nitrous acid about
15 g. of urea is added in small portions, with stirring, as long as gas is produced. The mixture is filtered if it is not clear and is then treated gradually with a solution of
30 g. (0.18 mole) of potassium iodide in 200 cc. of water. To complete the reaction the mixture is heated until no more gas is evolved. Any free
iodine is removed by
sodium bisulfite, and the mixture is then filtered on a
Büchner funnel, washed free from
sulfuric acid and inorganic salts, pressed, and sucked as dry as possible. The product is then air dried to constant weight. The yield of light brown, crude material, m.p.
160–162°, is
60–61 g. (
94–95 per cent of the theoretical amount). The pure product can be obtained by dissolving the crude material in
200 cc. of boiling benzene, filtering, and cooling the filtrate to 10°. The yield of yellow crystals melting at
161–162° is
40–42 g. (
65–70 per cent recovery) (Note
3).