In a
2-l. round-bottomed flask are placed, in the order mentioned,
50 g. (1 mole) of 98% sodium cyanide in 100 ml. of water,
58.9 g. (1.1 moles) of ammonium chloride in 140 ml. of lukewarm water (about 35°), and
134 ml. (2 moles) of aqueous ammonia (sp. gr. 0.90). The mixture is shaken while
120 g. (1 mole) of acetophenone in
300 ml. of 95% ethanol is added. The flask is stoppered with a
rubber stopper, which is wired in place (Note
1), and is then immersed in a
water bath maintained at 60°. The flask is shaken from time to time, and a homogeneous solution results within 30 minutes. The reaction mixture is heated for 5 hours at 60°, then well cooled in an ice-water mixture, and poured, with precautions (under a
well-ventilated hood), into a
5-l. round-bottomed flask which is immersed up to the neck in an ice-water mixture and which contains
800 ml. of concentrated hydrochloric acid (sp. gr. 1.18–1.19). The reaction flask is rinsed with two 25-ml. portions of water, which are added to the
hydrochloric acid solution. The solution of the
aminonitrile is saturated at 0–5° with dry
hydrogen chloride (Note
2) and is then set aside overnight in the ice-water bath, which is allowed to melt and come to the temperature of the room. The mixture of solid and liquid material is diluted with 1 l. of water and boiled vigorously for 2.5 hours under a
reflux condenser in a well-ventilated hood (Note
3). The dark hydrolysate is concentrated under reduced pressure to remove the
acetophenone and other volatile impurities. The solution is finally transferred to a
10-in. evaporating dish and is stirred occasionally while it is evaporated almost to dryness. Once a heavy deposit of inorganic salts has formed, very little bumping occurs. The solid residue is evaporated on a water bath twice with 100-ml. portions of water in order to remove as much
hydrochloric acid as possible. The residue is crushed, and
600 ml. of absolute ethanol is added. The suspension is warmed for a short time on a
steam bath; it is shaken thoroughly and then chilled in an ice-water mixture. The inorganic salts are removed by filtration through a
15-cm. Büchner funnel, and the cake is washed with small portions of absolute
ethanol until 600 ml. has been used. The combined filtrates and washings are placed in a
3-l. beaker, and
pyridine is added while the mixture is stirred by hand with a thick
glass rod. The addition of
pyridine is continued until the solution is nearly neutral to
Congo red paper, and then an additional 50 ml. is added; the total amount of
pyridine required is 80–100 ml. (Note
4).
The amino acid contains a small amount of
ammonium chloride, which can be removed by dissolving the product in 21 times its weight of water and precipitating it by the addition of 42 times its weight of absolute
ethanol (Note
5). The mixture is allowed to stand overnight in a
refrigerator. The amino acid is collected on a Büchner funnel and washed with an ethanol-water mixture containing
80% by weight of ethanol. The amino acid is dried in a vacuum desiccator over flake
sodium hydroxide. The recovery is about
70% (Note
6).