(
A)
o-Nitrobenzenesulfonyl Chloride.—A
3-l. three-necked, round-bottomed flask is fitted with an
efficient liquid-sealed stirrer, a
reflux condenser, and an
inlet tube for introducing
chlorine well beneath the surface of the liquid. A
glass outlet tube leads from the reflux condenser to the
hood. In the flask are placed
200 g. (0.65 mole) of di-o-nitrophenyl disulfide (Org. Syn. Coll. Vol. I, 1941, 220),
1 l. of concentrated hydrochloric acid (sp. gr. 1.18), and 200 cc. of concentrated nitric acid (sp. gr. 1.42). A stream of
chlorine is passed into the mixture at the rate of about two bubbles per second, and the solution is warmed on a
steam bath to 70°. In about thirty minutes the disulfide melts and the solution becomes orange-red in color. After the disulfide has melted, the heating and addition of
chlorine are continued for one hour. The sulfonyl chloride is separated immediately from the supernatant liquid by decantation, washed with two 300-cc. portions of warm water (70°), and allowed to solidify. The water is drained from the solid mass as completely as possible.
The washed chloride is dissolved in
140 cc. of glacial acetic acid at 50–60°, and the solution is quickly filtered by suction. The filtrate is chilled by immersing the flask in cold water and is vigorously stirred in order to cause the sulfonyl chloride to separate in fine crystals. The mixture is now triturated thoroughly with a liter of cold water which is then decanted into a
large Büchner funnel. The process is repeated twice. Finally, a liter of cold water is added to the mixture, and then
10 cc. of concentrated ammonium hydroxide (sp. gr. 0.90) is added, with stirring. The crystals are collected at once on the filter, washed with 200 cc. of water, and allowed to dry in the air. The yield is
240 g. (
84 per cent of the theoretical amount) of a light yellow product, melting at
64–65°. This material may be used without further purification (and without being dried) for the preparation of
orthanilic acid.
(
B)
Orthanilic Acid.—A 3-l. flask, fitted with a reflux condenser and a liquid-sealed stirrer, is placed on a hot plate. In the flask is placed a mixture of
200 g. (0.90 mole) of o-nitrobenzenesulfonyl chloride,
100 g. of anhydrous sodium carbonate, and 600 cc. of water. The mixture is heated to boiling and stirred in order to promote the hydrolysis, which is complete within forty-five minutes after the compound has melted. The orange-red solution is filtered, and the filtrate is made just acid to litmus by the addition of
acetic acid, about 25 cc. being required. The solution is transferred to a 3-l. three-necked flask which is provided with a reflux condenser and an efficient liquid-sealed stirrer. The solution is heated to boiling on the hot plate, and
iron filings (about 20-mesh) are added, with vigorous stirring, at the rate of about 25 g. every fifteen minutes. A total of
350 g. of iron is used. In a few minutes the mixture becomes very deep brown in color and has a tendency to foam. After stirring for four hours, a sample when filtered should yield an almost colorless filtrate; if the filtrate is red or orange, stirring and heating must be continued. When a light-colored filtrate is obtained, 2 g. of
decolorizing carbon is added, the hot mixture is filtered by suction, and the residue is washed several times with small amounts of hot water which are added to the main solution. The filtrate is chilled to about 15°, and
95 cc. of concentrated hydrochloric acid is slowly added. The
orthanilic acid separates in fine colorless crystals which appear as hexagonal plates under the
microscope (Note
1). When the temperature has again fallen to about 15°, the mass is filtered and the precipitate is washed with water and then with
ethyl alcohol. If about
20 cc. of concentrated hydrochloric acid is added to the filtrate, an additional deposit of about 1 g. will be obtained after a few hours' standing. The yield is
89 g. (
57 per cent of the theoretical amount). The compound is
97–100 per cent pure and for many purposes will not require recrystallization. Material of analytical purity may be obtained by one recrystallization from hot water. The decomposition point is about 325° (bloc Maquenne).