A
wide-mouthed 250-cc. flask (Note
1) containing a mixture of
50 g. (0.25 mole) of technical 2,4-dinitrochlorobenzene (Note
2) and
18 g. (0.23 mole) of ammonium acetate is half immersed in an
oil bath. The flask is fitted with a
reflux condenser and an
inlet tube, the lower end of which is at least 2 cm. wide (to prevent clogging) and which nearly touches the surface of the reaction mixture. During the operation
ammonia gas is introduced through a bubble counter which contains a small amount of strong
potassium hydroxide solution (12 g. of potassium hydroxide in 10 cc. of water).
The oil bath is heated to 170° and maintained at that temperature for six hours during which time
ammonia gas is passed through at the rate of three to four bubbles per second. After the mixture has cooled, the solid is broken up by means of a
glass rod and mixed with 100 cc. of water; the mixture is then heated to boiling and filtered while hot. The residue is dissolved in
500 cc. of boiling alcohol, and water is added (about 150 cc.) until the solution becomes turbid. Heat is applied until the turbidity disappears and then the solution is allowed to cool. After standing overnight, the crystals are filtered and dried. The yield is
31–35 g. (
68–76 per cent of the theoretical amount) of
2,4-dinitroaniline, melting at
175–177° (Note
3) and (Note
4). For further purification the product is recrystallized in the same manner from alcohol and water, using
20 cc. of alcohol per gram of solid.
Ninety per cent of the crude material is recovered as recrystallized product melting sharply at
180°.