Organic Syntheses, Coll. Vol. 1, p.440 (1941); Vol. 8, p.84 (1928).
In a 500-cc. flask
, fitted with a 24-cm. fractionating column (Note 1)
and (Note 2)
attached to a water-jacketed condenser
, are placed 148 g. (1 mole) of dry powdered cinnamic acid
, 2 g. of hydroquinone
, and several small pieces of clay plate. One-half gram of hydroquinone
is also placed in the flask in which the distillate is to be collected (Note 3)
. The acid is rapidly heated over a wire gauze
with a free flame until phenylethylene
begins to distil, the heating being regulated so that the temperature of the vapors at the head of the column never exceeds 130°, and mainly remains below 120° (Note 4)
and (Note 2)
. The cinnamic acid
refluxes, but very little should escape and collect in the condenser. The decomposition is complete in three and one-half to five hours, when no more phenylethylene
distils and the temperature at the head of the column rises rapidly.
The distillate consists of a straw-colored oil and a little water; a dark tarry residue (50–60 g.) remains in the reaction flask. About 100 cc. of water is added to the distillate, and the aqueous mixture is distilled. The phenylethylene
is easily volatile with steam and separates in the distillate as a colorless oil. The oil (45–48 g.) is separated, dried with a small amount of calcium chloride
, and carefully distilled under reduced pressure, the condenser and receiver
being cooled to 0–5° by means of iced (or very cold) water. The phenylethylene
is collected at 44–46°/40 mm.
or 60–63°/60 mm. (Note 5)
. The yield is 40–42 g.
per cent of the theoretical amount) (Note 6)
The column consists of a glass tube of 13–14 mm. internal diameter, 24 cm. long from lower end to the side arm, which has an internal diameter of 7 mm.
It is important that these dimensions be observed in order to avoid polymerization of the product. It has been found in checking that better results are obtained by making indentations in the tube at frequent intervals and at different angles; these tend to reduce the number of cinnamic acid
particles which are carried over with the vapor. A column of the Vigreux type
would no doubt also be suitable.
If the fractionating column does not have the exact dimensions designated in (Note 1)
the temperature of the vapors at the head of the column will vary from those given. However, no difficulty will arise in obtaining the yield of product indicated if the general directions for heating the cinnamic acid
, so as to avoid the carrying of the cinnamic acid
into the distillate, are followed.
If the temperature of the escaping vapor rises above 130°, appreciable amounts of cinnamic acid
pass into the condenser and the yield falls materially.
should not be distilled under atmospheric pressure since the temperature (146°) required for the distillation causes a considerable loss by polymerization. The decomposition of cinnamic acid
cannot be effected by distillation under diminished pressure, since the acid under these conditions distils below the temperature required for decomposition (approximately 300°).
On increasing the scale of the preparation, the yield is somewhat higher.
This preparation is referenced from:
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