(
A)
2,6-Dibromo-4-aminophenol Chlorostannate.—In a
5-l. round-bottomed flask is placed
148.5 g. (0.5 mole) of 2,6-dibromo-4-nitrophenol (p. 173) with
300 cc. (3.7 moles) of concentrated hydrochloric acid (sp. gr. 1.19), 300 cc. of water, and
185 g. (1.56 gram atoms) of mossy tin.
Three cubic centimeters of capryl alcohol is added to control the foaming, and the mixture is heated in the open flask with stirring on the
steam bath until the reaction starts. The reaction may proceed vigorously at the outset, and it is well to heat cautiously during the initial stages.
Hydrochloric acid and water are added from time to time, and foaming can be controlled by the addition of a part of the water. A total of
520 cc. (6.4 moles) of concentrated hydrochloric acid and 900 cc. of water are added during the course of the reaction. When the first, vigorous reaction is over the mixture is heated strongly until all the
dibromonitrophenol has dissolved, and the hot solution (at about 85°) is filtered through a layer of
Norite on a hot
Büchner funnel. The filtrate, which usually is colorless, is cooled to 0° with stirring for two hours, or allowed to stand in a cool place overnight. The product, which separates in the form of colorless or slightly yellow needles, is collected on a Büchner funnel and washed with cold dilute
hydrochloric acid (one volume of concentrated acid to one volume of water). The material is usually colorless and may be used directly for the reaction which follows (Note
1). After drying in an
oven at 50–60°, or in a
vacuum desiccator over
sodium hydroxide, the tin salt weights
214–220 g. The theoretical weight, based on the formula assumed above, is
217 g.
(
B)
2,6-Dibromoquinone-4-chloroimide.—The chlorostannate is conveniently oxidized in two batches (Note
2). In a
3-l. flask is placed a solution of
115 g. (2.9 moles) of sodium hydroxide in 175 cc. of water, 1 kg. of cracked ice is added, and
108 g. (1.52 moles) of chlorine gas is passed into the mixture. About 80 per cent of the ice is melted by the operation. In a
5-l. flask 110 g. (0.127 mole) of the tin salt of 2,6-dibromo-4-aminophenol is dissolved in 1.2 l. of water and
12 cc. of concentrated hydrochloric acid. Solution is effected by warming the mixture to 40–50°, after which it is cooled to 15–17° and 600 g. of ice is added. The
sodium hypochlorite solution is then added all at once with vigorous stirring (
Hood). A yellow precipitate of
2,6-dibromoquinone-4-chloroimide separates immediately, and
chlorine is evolved. As soon as the
sodium hypochlorite solution has been stirred in, 120 cc. of concentrated
hydrochloric acid is added in order to keep the tin salts in solution (Note
3). The fine, yellow precipitate is filtered under the hood on a Büchner funnel (Note
4) and washed with
1.5 l. of 5 per cent hydrochloric acid to remove tin salts and
chlorine. The product is dried on a
glass tray at 30–40° (Note
5), or in a vacuum desiccator over
sodium hydroxide. From two such batches the yield of chloroimide melting at
80–82° is
126–130 g. (
84–87 per cent of the theoretical amount based on the weight of
2,6-dibromo-4-nitrophenol used in Part A).