Submitted by Johannes S. Buck and Clayton W. Ferry.
Checked by John R. Johnson and P. L. Barrick.
1. Procedure
In each of two ordinary
250-cc. (8-oz.) narrow-mouthed bottles are placed
32.1 g. (0.3 mole) of m-toluidine and
33 g. (23 cc., 0.3 mole) of ethyl bromide (Note
1). The bottles are sealed with
rubber stoppers wired tightly in place and then allowed to stand for twenty-four hours in a
2-l. beaker filled with water at room temperature (Note
2). The white crystalline mass in each bottle is broken up and the amine is liberated by shaking with
150 cc. of 10 per cent sodium hydroxide solution and
50 cc. of ether. The contents of the two flasks are combined, the lower aqueous layer is separated and discarded, and the
ether solution of the amine is washed with 150 cc. of water. When the
ether is distilled from a
steam bath, the crude
amine (
90–92 g.) is obtained.
This crude amine is added, with cooling, to a solution of
100 cc. of concentrated hydrochloric acid (sp. gr. 1.18) in 350 cc. of water. The solution of the hydrochloride is cooled in an
ice bath, and stirred rapidly, while a solution of
41.5 g. (0.6 mole) of sodium nitrite in 150 cc. of water is added slowly. During this addition the temperature should not be allowed to rise above 12°. After all the nitrite has been added, the mixture is allowed to stand for ten minutes and is then extracted with three
100-cc. portions of ether. The
ether is evaporated from the extract by warming gently on a steam bath and blowing a stream of air over the surface. Care must be taken to keep the temperature as low as possible during the evaporation (Note
3).
The crude nitroso compound is added gradually, with continuous shaking, to a solution of
407 g. (1.8 moles) of stannous chloride dihydrate in 420 cc. (4.8 moles) of concentrated hydrochloric acid (sp. gr. 1.18) contained in a
3-l. flask. The reaction is exothermic, and cooling is applied, if necessary, to keep the temperature below 60°. After standing for at least an hour (Note
4), the mixture is made strongly alkaline by the cautious addition of a cold solution of
520 g. (13 moles) of sodium hydroxide in about 800 cc. of water. During the addition of the alkali the mixture is agitated vigorously and cooled in running water.
The resulting milky suspension is distilled with steam until about 2 l. of distillate has collected. The distillate is saturated with
sodium chloride and extracted with three
100-cc. portions of benzene. The extract is dried thoroughly overnight with flaked
potassium hydroxide and decanted from the spent drying agent. After removal of the solvent by distillation, the amine is distilled under reduced pressure. Practically all the material distils at 111–112°/20 mm., or 115.5–117°/26 mm. The pure amine forms a practically colorless, highly refringent liquid and weighs
51–53 g. (
63–66 per cent of the theoretical amount) (Note
5). It develops color rapidly on standing.
2. Notes
2. If the initial reaction is allowed to proceed too rapidly, considerable pressure may be developed in the bottles. As a safeguard against explosions it is advisable to enclose the bottles in wire mesh shields.
3. The nitroso compound decomposes on warming or on standing. It should not be stored but treated at once with the reducing agent.
4. The mixture may be allowed to stand for a longer period (overnight) without harm. Frequently a granular precipitate of a tin complex of the amine separates.
5. Other N-alkyl-
m-toluidines may be prepared by practically the same procedure. The submitters report that
n-propyl, isopropyl, and
n-butyl derivatives are obtained readily from
m-toluidine and the appropriate alkyl iodides (rather than the bromides). With these halides the alkylation is effected by placing the
sealed bottle in a beaker of water which is warmed gradually to 70–80° and kept in a warm place until the reaction is completed; usually several days are required.
3. Discussion
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