In a
5-l. three-necked flask fitted with a mercury-sealed stirrer (Note
1), a
dropping funnel, and an
efficient reflux condenser protected by a
calcium chloride drying tube is placed
82 g. (3.5 gram atoms) of magnesium turnings. A solution of
459 g. (6 moles) of dry, freshly distilled allyl chloride in
2.4 l. of anhydrous ether is added to the flask through the dropping funnel in the following manner: A 100- to 200-ml. portion of the solution and a small crystal of
iodine are added, and the mixture is warmed, if necessary, until the reaction starts. The remainder of the solution is added with stirring and cooling in an
ice bath as rapidly as possible without loss of material through the condenser (Note
2). By sponging the upper part of the flask with ice water from the
cooling bath, the addition can be completed in 1–1.5 hours. When the addition is complete, the thick slurry is allowed to stand at room temperature for 5 hours with stirring for as much of that period as is practicable (Note
1). The flask is again cooled in an ice bath, and a cold
5% solution of hydrochloric acid is added through the dropping funnel until the evolution of heat has practically ceased (Note
2) and the
magnesium chloride is in solution. The mechanical stirrer is started again when the mixture becomes sufficiently fluid (Note
1).
The contents of the flask are transferred to a
separatory funnel; the
ether layer is separated and distilled without washing or drying through a small packed column (Note
3) until the distillation temperature begins to rise (38–40°). The residue is transferred to a separatory funnel, washed with two 500-ml. portions of water, dried over
10 g. of calcium chloride, and fractionated through the small packed column. After distillation of
ether and some
allyl chloride (b.p.
45°)
biallyl is collected as a colorless liquid in a yield of
135–160 g. (
55–65%), b.p.
59–60°/760 mm.;
nD20 1.4040;
nD25 1.4012.