Organic Syntheses, CV 5, 300
Submitted by Ivar Ugi, Rudolf Meyr, Martin Lipinski, Ferdinand Bodesheim, and Friedrich Rosendahl
1.
Checked by B. C. McKusick and M. E. Hermes.
1. Procedure
Caution! Isocyanides should be prepared in a hood since they have pungent odors and some are known to be toxic.
A solution consisting of
127 g. (1.00 mole) of N-cyclohexylformamide (Note
1),
500 ml. (490 g., 6.2 moles) of pyridine, and
300 ml. of petroleum ether (b.p.
40–60° or
30–60°) is charged into a
2-l., three-necked, round-bottomed flask equipped with a
Hershberg stirrer,
2 dropping funnel,
reflux condenser, and
thermometer. The flask is immersed in an
ice bath, and
92 g. (0.60 mole) of phosphorous oxychloride is added from the dropping funnel to the stirred mixture in the course of 30–40 minutes. The mixture is stirred under reflux for 10 minutes after all the
phosphorus oxychloride is added. The mixture is then cooled to 0–5°; this converts it to a heavy slurry. Ice water (800 ml.) is gradually added with stirring, and stirring of the cold mixture is continued until all solid material has dissolved. The organic phase is separated in a
separatory funnel. The aqueous phase is extracted with three
60-ml. portions of petroleum ether, and the extracts are combined with the organic phase, which is then extracted with three 100-ml. portions of water, dried over
20 g. of magnesium sulfate, and distilled through a
40-cm. vacuum-jacketed Vigreux column (Note
2). The
petroleum ether is rapidly removed under slightly reduced pressure from a bath at a temperature not exceeding 50–60°.
Cyclohexyl isocyanide, a colorless foul-smelling liquid (Note
3), is collected at
56–58° /11 mm.; weight
73–79 g. (
67–72%);
nD25 1.4488–1.4501.
2. Notes
1. The checkers prepared
N-cyclohexylformamide by slowly adding
260 g. (3.52 moles) of ethyl formate with stirring to
396 g. (4.00 moles) of cyclohexylamine in a flask immersed in an ice bath. After the exothermic reaction ceased, the solution was refluxed for 2 hours and distilled through a
25-cm. Vigreux column to give
403 g. (
90%) of
N-cyclohexylformamide, b.p.
137–138° /10 mm.,
nD25 1.4849.
3
2. The checkers used a
50-cm. spinning-band column.
4 In order to minimize resinification of the
cyclohexyl isocyanide, distillation should be as rapid as possible and the temperature in the still pot should not exceed 90°.
3. Discussion
Of the numerous dehydrating agent/base systems which have been used in the preparation of isonitriles, the phosgene/tertiary amine system seems to afford the best yields. Examples of the
phosgene procedure may be found in reference
5. The disadvantage of
phosgene is its extreme toxicity and the difficulty with which it is handled by the novice. The present procedure is therefore the best combination of convenience and safety for the preparation of aliphatic isocyanides boiling above
ethyl isocyanide. (
Methyl and ethyl isocyanides may be prepared by using high-boiling amines like
quinoline.) It has been applied to the synthesis of the following isocyanides:
5 isopropyl (
38%),
n-butyl (
61%),
t-butyl (
68%), and
benzyl (
56%). In preparing
isopropyl isocyanide or
t-butyl isocyanide, the
petroleum ether should be of boiling point
30–35°, as otherwise it is difficult to separate these low-boiling isocyanides in the indicated yield, and, even then, substantial amounts of isocyanide are found in the
petroleum ether fraction.
This preparation is referenced from:
8
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