In a
3-l. beaker are placed
110 g. (1.2 moles) of aniline,
150 g. (1.8 moles) of sodium bicarbonate, and 1 l. of water, and the mixture is cooled to 12–15° by the addition of a small amount of ice. The beaker is then fitted with an
efficient mechanical stirrer. The blade of a
large porcelain spatula should be inserted into the liquid to overcome the rotary motion and thus obtain better mixing. The stirrer is started and
254 g. (1 mole) of powdered iodine is added in 15–20 g. portions at intervals of two to three minutes so that all the
iodine is introduced during one-half hour. Stirring is continued for twenty to thirty minutes. By this time the reaction is complete and the color of the free
iodine in the solution has practically disappeared. The crude
p-iodoaniline, which separates as a dark crystalline mass, is collected on a
Büchner funnel, pressed as free from water as possible, and dried in the air. The filtrate may be saved for the recovery of
iodine (Note
1).
For the purification of the
p-iodoaniline, the crude product is placed in a
2-l. flask and
1 l. of gasoline (Note
2) is added. The flask is fitted with an
air-cooled reflux condenser and heated in a
water bath at a temperature of 75–80° (Note
3). The flask should be shaken frequently, and about fifteen minutes should be allowed for saturation of the solution. The hot
gasoline solution is slowly decanted into a
beaker set in an ice-salt mixture and stirred constantly. The
p-iodoaniline crystallizes immediately in practically colorless needles which are filtered and dried in the air (Note
4) and (Note
5). The filtrate is returned to the flask for use in a second extraction (Note
6). The yield is
165–185 g. (
75–84 per cent of the theoretical amount) of a product which melts at
62–63°.