In a
500-ml. round-bottomed flask fitted with a
calcium chloride drying tube are placed
226 g. (1.35 moles) of α-bromo-n-butyric acid (Note
1) and
284 g. (175 ml., 2.39 moles) of thionyl chloride (Note
2). A small piece of porous plate is added, and the reaction mixture is allowed to stand at room temperature for 48 hours (Note
3). The excess
thionyl chloride is removed by distillation, and the acid chloride is collected at
147–153° (Note
4). The yield of colorless product is
168–197 g. (
67–78%).
In a
1-l. three-necked flask fitted with a
Hershberg wire stirrer, a
reflux condenser equipped with a calcium chloride drying tube, and a
dropping funnel, are placed
237 g. (2.21 moles) of methylaniline (Note
5) and
300 ml. of dry benzene (Note
6). Stirring is started, and the reaction mixture is cooled in an
ice-water bath during the dropwise addition of
197 g. (1.06 moles) of α-bromo-n-butyryl chloride diluted with approximately
40 ml. of dry benzene. The addition requires approximately 1 hour, and the reaction mixture becomes thick owing to the separation of
methylaniline hydrochloride. The mixture is stirred for an additional 30 minutes and is then set aside protected by a calcium chloride tube for approximately 12 hours. The colorless
methylaniline hydrochloride is removed by filtration with suction and washed with two
25-ml. portions of benzene. The combined filtrate and washings are washed with three
100-ml. portions of 5% hydrochloric acid to remove excess
methylaniline, and then with two 100-ml. portions of water (Note
7). The
benzene layer is dried over anhydrous
magnesium sulfate. The drying agent is removed by filtration and the solvent is removed by distillation (the last traces of solvent are removed with an aspirator) to give
N-methyl-α-bromo-n-butyranilide (Note
8).
The crude
N-methyl-α-bromo-n-butyranilide is placed in a
500 ml. three-necked round-bottomed flask equipped with a Hershberg wire stirrer and a reflux condenser fitted with a calcium chloride drying tube. To the stirred liquid, cooled in an ice-water bath, is added
281 g. (2.1 moles) of aluminum chloride (reagent grade, powdered) in portions over a period of about 30 minutes (Note
9). A
thermometer is then introduced, and the cooling bath is replaced by a source of heat (Note
10). The reaction commences at about 80° with the evolution of
hydrogen bromide (Note
11) and becomes very vigorous at 95–105°. At this point, no external heat need be applied, because the heat of reaction carries the temperature to 110–115°. When the reaction slows down, the temperature is raised to 160–170°, and the dark mixture is then allowed to cool to about 80–90°. The reaction mixture is poured
cautiously into a
3-l. beaker about one-fourth full of cracked ice. Additional ice is added as required. The last traces of product are removed from the flask with the aid of
hydrochloric acid and ice. Concentrated
hydrochloric acid (75 ml.) is added to aid the decomposition of the
aluminum chloride complex. The brown oil is separated after adding
75 ml. of ether, and the aqueous layer is extracted with two
100-ml. portions of ether. The combined organic layers are washed with two
75-ml. portions of 5% hydrochloric acid, two 100-ml, portions of water, two
75-ml. portions of saturated sodium bicarbonate solution, and two 100-ml. portions of water. After drying over anhydrous
magnesium sulfate the
ether is distilled, and the residue is distilled under reduced pressure. The main fraction is collected at
103–107°/0.5 mm. The yield is
126–131 g. (
68–71% based on the acid chloride) of pale yellow
1-methyl-3-ethloxindole,
nD25 1.5569–1.5580.