Organic Syntheses, Coll. Vol. 1, p.107 (1941); Vol. 2, p.9 (1922).
In a 5-l. round-bottomed flask, fitted with a stopper
holding a reflux condenser
and separatory funnel
, are placed 500 g. (10 moles) of powdered sodium cyanide (96–98 per cent pure)
and 450 cc. of water. The mixture is warmed on a water bath
in order to dissolve most of the sodium cyanide
, and then 1 kg. (8 moles) of benzyl chloride
) (Note 1)
mixed with 1 kg. of 95 per cent alcohol
is run in through the separatory funnel in the course of one-half to three-quarters of an hour. The mixture is then heated under a reflux condenser on the steam bath for four hours, cooled and filtered with suction to remove most of the sodium chloride
. It is well to wash the filtered salt with a small portion of alcohol in order to remove any benzyl cyanide
which may have been mechanically held.
The flask is now fitted with a condenser, and as much alcohol as possible is distilled off on the steam bath. The residual liquid is cooled, filtered if necessary, and the layer of benzyl cyanide
separated. This crude benzyl cyanide
is now placed in a Claisen distilling flask
and distilled under reduced pressure, the water and alcohol coming over first, and finally the cyanide (Note 2)
. It is advantageous to use a fractionating column
or, better still, a Claisen flask with a modified side arm1 (p. 130)
, which gives the same effect as a fractionating column (Note 3)
. The material is collected at 135–140° /38 mm.
(115–120° /10 mm.
) (Note 4)
. The yield is 740–830 g.
per cent of the theoretical amount).
The quality of the benzyl chloride
markedly affects the yield of pure benzyl cyanide
. If a poor technical grade is used, the yields will not be more than 60–75
per cent of the theoretical, whereas consistent results of about 85 per cent or more may always be obtained when a product is used that boils over 10°. The technical benzyl chloride
at hand yielded on distillation about 8 per cent of high-boiling material; a technical grade from another source was of unusual purity and boiled over a 2° range for the most part.
It is advisable to distil off the last portion of alcohol and water and also to distil the benzyl cyanide
under reduced pressure, since under ordinary pressures a white solid invariably separates during the distillation.
One method of purifying the benzyl cyanide
is to steam distil it after the alcohol has been first distilled from the reaction mixture. At ordinary pressures, this steam distillation is very slow and, with an ordinary condenser, requires eighteen to twenty hours in order to remove all the volatile product from a run of 500 g. of benzyl chloride
. The distillate separates into two layers; the benzyl cyanide
layer is removed and distilled. The product obtained in this way is very pure and contains no tarry material, and, after the excess of benzyl chloride
has been removed, boils at practically constant temperature. This steam distillation is hardly advisable in the laboratory.
, prepared according to the procedure just described and collected over a 5° range, is perfectly satisfactory for many purposes, such as the preparation of phenylacetic acid (p. 436)
or ester (p. 270)
. However, the cyanide
has a disagreeable odor due to the presence of benzyl isocyanide
and often develops appreciable color on standing. The following treatment, suggested by John R. Johnson, removes the isocyanide
and furnishes a water-white product which develops no color on standing for several months. The once-distilled benzyl cyanide
is shaken vigorously for five minutes with an equal volume of warm (60°) 50 per cent sulfuric acid
, prepared by adding 275 cc. of concentrated sulfuric acid
to 500 cc. of water. The benzyl cyanide
is separated and washed with an equal volume of saturated sodium bicarbonate
solution followed by an equal volume of half-saturated sodium chloride
solution. It is then dried and distilled under reduced pressure. The loss in the washings is negligible.
This preparation is referenced from:
- Org. Syn. Coll. Vol. 1, 270
- Org. Syn. Coll. Vol. 1, 396
- Org. Syn. Coll. Vol. 1, 436
- Org. Syn. Coll. Vol. 2, 287
- Org. Syn. Coll. Vol. 2, 487
- Org. Syn. Coll. Vol. 2, 512
- Org. Syn. Coll. Vol. 3, 715
- Org. Syn. Coll. Vol. 3, 720
- Org. Syn. Coll. Vol. 4, 387
- Org. Syn. Coll. Vol. 4, 760
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