In a
500-ml. round-bottomed flask fitted with a
water-cooled condenser,
50 g. (0.23 mole) of N-phenylanthranilic acid (or
46 g. of acridone) is mixed with
160 ml. (270 g., 1.76 moles) of phosphorus oxychloride (Note
1). The mixture is slowly heated (about 15 minutes) to 85–90° on a
water bath. A vigorous reaction sets in, and the flask is removed at once from the hot bath. If the reaction becomes too violent, the flask is immersed in a
beaker of cold water for a moment. After 5–10 minutes, when the boiling subsides somewhat, the flask is immersed in an
oil bath. The temperature of the bath is then raised to 135–140°, where it is maintained for 2 hours. The excess
phosphorus oxychloride is removed by distillation from an oil bath at 140–150° under a vacuum of about 50 mm. The residue, after cooling, is poured into a well-stirred mixture of
200 ml. of concentrated ammonia solution, 500 g. of ice, and
200 ml. of chloroform. The flask is rinsed by shaking with a little
chloroform-ammonia mixture (about 25–30 ml.). When no more undissolved solid remains (about 30 minutes is required), the
chloroform layer is separated and the aqueous layer is extracted with an additional
40 ml. of chloroform. The united
chloroform extracts are dried over
10 g. of calcium chloride and filtered, and the solvent is removed by distillation. The resultant greenish gray powder is dried at 70° for 20 minutes (Note
2) and (Note
3). The yield of crude
9-chloroacridine is
50 g. (practically theoretical), m.p.
117–118° (Note
4).
In a
1-l. beaker are placed
50 g. (0.23 mole) of crude 9-chloroacridine and
250 g. (2.7 moles) of phenol (Note
5). The mixture is stirred mechanically while it is heated to 70° (internal temperature) in an oil bath. Stirring is continued, and
30 g. (0.38 mole) of powdered ammonium carbonate (Note
6) is added as rapidly as the vigorous effervescence permits. The internal temperature is quickly raised to 120° and maintained there while the mixture is stirred for 45 minutes. The mixture is cooled to 30° and poured into
600 ml. of acetone in a
beaker surrounded by ice. After about an hour, precipitation of
9-aminoacridine hydrochloride is complete and the product is filtered and washed free from
phenol with
250 ml. of acetone (Note
7). The cake is extracted by boiling it with water three times, using successively 800, 200, and 100 ml., the last portion containing
2 ml. of concentrated hydrochloric acid. The hot solutions are filtered to remove the small amount of carbonaceous matter, and the filtrates are combined. Any precipitate is redissolved by heating, and then a solution of
60 g. of sodium hydroxide in 300 ml. of water is added. The mixture is cooled and filtered; the solid is washed with 300 ml. of cold water and dried at 120°. The yield is
34–38 g. (
76–85% based on
phenylanthranilic acid or
acridone) of bright yellow powder, m.p.
230°. This product is pure enough for most purposes, but the crude material may be purified by boiling 38 g. of it with
1.2 l. of acetone. The mixture is filtered by suction, and the filtrate is chilled in an
ice-salt bath. The first crop weighs
26–27 g., and concentration of the mother liquor to 500 ml. yields an additional
6–7 g. of crystals. Both crops melt at
232–233°, and the recovery is
32–34 g. (
84–89%) (Note
8).