In a
1-l. conical flask are placed
52 g. (about 0.15 mole) of the equimolecular mixture of 5-nitro-2,3-dihydro-1,4-phthalazinedione (p. 656) and
sodium sulfate (Note
1), 200 ml. of water, and
75 ml. of 15 N ammonium hydroxide solution (sp. gr. 0.90). The flask is stoppered and shaken until all, or very nearly all, of the solid has dissolved, and
84 g. (0.4 mole) of sodium hydrosulfite dihydrate (Note
2) is added in three portions. The solution becomes hot, the temperature sometimes reaching the boiling point, and the dark orange-red color begins to fade. After the spontaneous reaction has subsided the solution is boiled gently for a few minutes and filtered to remove insoluble impurities. The filtrate is heated on a
steam bath or over a small flame for 30 minutes. During this time the
5-amino-2,3-dihydro-1,4-phthalazinedione begins to separate as a light-yellow flocculent precipitate or as a crust adhering to the walls of the flask. The hot solution is made distinctly acid to litmus paper with
glacial acetic acid and allowed to stand overnight. The yellow precipitate is separated by filtration, washed well with cold water, and dried in a hot-air
oven at 110° or below. The dry material weighs
25–27 g. and melts with decomposition at
301–305° (Note
3).
This material is sufficiently pure for most purposes. The chief impurities are small amounts of inorganic salts and a trace of the unreduced nitro compound. If a purer product is desired the crude material (
5 g. per 100 ml.) is dissolved in hot
3 N hydrochloric acid,
decolorizing carbon is added, the solution is filtered promptly (Note
4), and the filtrate is made just faintly acid to Congo red paper with concentrated
ammonium hydroxide. After the mixture has cooled to room temperature the pale yellow flocculent precipitate is separated by filtration, washed well with cold water, and dried in the oven at 100° or below. The recovery in the crystallization is
70–75% (Note
5), and the product melts at
329–332° (Note
4).