Organic Syntheses, Coll. Vol. 1, p.119 (1941); Vol. 7, p.8 (1927).
) Potassium Phthalimide
.—In a 2-l. round-bottomed flask
fitted with a reflux condenser
are placed 80 g. (0.54 mole) of phthalimide (Note 1)
and 1600 cc. of absolute alcohol (p. 249)
. The mixture is gently boiled for about fifteen minutes or until no more of the phthalimide
dissolves (Note 2)
. The hot solution is decanted from any solid into a specially prepared solution of 30.5 g. (0.54 mole) of potassium hydroxide (Note 3)
. A precipitate of potassium phthalimide
separates at once. The mixture is stirred and cooled quickly to room temperature, and the precipitate is filtered with suction. To the alcoholic mother liquors a second 80-g. portion of phthalimide
is added, and the entire process is repeated. The two crops of crystals are united (Note 4)
and washed with 200 cc. of acetone
to remove any unchanged phthalimide
. The yield of air-dried potassium phthalimide
is 160–180 g.
per cent of the theoretical amount).
.—In a 1-l. two-necked round-bottomed flask
fitted with an efficient stirrer
and a reflux condenser
are placed 150 g. (0.81 mole) of potassium phthalimide
and 450 g. (2.4 moles) of ethylene dibromide (Note 5)
. The stirrer is started and the mixture is heated for about twelve hours in an oil bath
maintained at 180–190°. The condenser is then set for distillation, and the excess of ethylene dibromide
is distilled under reduced pressure. The recovery of the bromide
amounts to 290–295 g. (Note 6)
The crude bromoethylphthalimide
is extracted from the potassium bromide
by refluxing with 300 cc. of alcohol (98–100 per cent) (Note 7)
until the dark oil is entirely dissolved. This requires about one-half. hour. The hot solution is filtered with suction, and the residue of salt is washed with a little hot alcohol. The alcohol is distilled under reduced pressure, and the dry residue is refluxed with 500 cc. of carbon disulfide
for about fifteen minutes in order to separate the soluble bromoethylphthalimide
from the insoluble diphthalimidoethane (Note 8)
. The warm solution is filtered with suction. The carbon disulfide
is distilled under diminished pressure (Note 9)
. The bromoethylphthalimide
remains as light tan crystals which melt at 78–80°
. The yield is 140–160 g.
per cent of the theoretical amount).
The product thus obtained is pure enough for most purposes. However, a purer product may be obtained by recrystallization from dilute alcohol in the presence of decolorizing carbon
. When 50 g. of crude product is dissolved in 200 cc. of 75 per cent alcohol
, boiled for about ten minutes with 5 g. of decolorizing carbon (Norite)
, filtered, and the solution cooled to 0°, 40 g. of white product is obtained. The recrystallized product melts at 80–81°
. A second recrystallization raises the melting point to 82–83°
The crude product always contains a small amount of material insoluble in alcohol.
It is convenient to prepare enough potassium hydroxide
solution for the two precipitations at one time. This solution is prepared by dissolving 61 g. of potassium hydroxide
in 60 cc. of water. To this solution is then added 180 cc. of absolute alcohol
. One-half of the resulting solution is used for each 80-g. portion of phthalimide
After the first crop has been filtered, most of it should be removed and the second crop should be filtered through the same paper. The alcoholic filtrate on distillation yields about 1500 cc. of 98 per cent alcohol
The last 15 to 20 g. of this recovered product distils very slowly.
The alcohol recovered from the preparation of the potassium phthalimide
may be used for this extraction.
If the carbon disulfide
is distilled at ordinary pressures, the residue melts and turns very dark. The crude yield is not lowered, but the purification is made more difficult.
The procedure described is based on that of Gabriel.1
This preparation is referenced from:
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