B.
4,6,8-Trimethylazulene.
Caution! 2,4,6-Trimethylpyrylium perchlorate is explosive. Operations with it should be conducted behind a shield. The arrangements of the reaction flask used in the preparation of
cyclopentadienylsodium are now altered for the next step. While increasing the
nitrogen flow rate strongly, the dropping funnel is removed and replaced by a
wide-mouthed powder funnel. The strong flow of pure
nitrogen coming out of the flask and around the powder funnel prevents the atmosphere from diffusing into the flask to any appreciable extent. Then, with strong stirring of the reaction mixture,
142 g. (0.64 mole) of 2,4,6-trimethylpyrylium perchlorate
(Caution! Moistened with dry tetrahydrofuran, (Note 5)) is added in small portions through the powder funnel at such a rate that the immediate exothermic reaction which ensues maintains the temperature of the reaction mixture between 42° and, at most, 48°. The color of the reaction mixture turns purple immediately on addition of the
2,4,6-trimethylpyrylium perchlorate. Usually the addition requires about 1 hour; then the reaction mixture is stirred for an additional 20 minutes. The powder funnel is replaced with a stopper, the condenser is turned downward for distillation, and about
130 ml. of tetrahydrofuran is removed by distillation while stirring is continued. For the distillation the flask is heated on a
steam bath, and the temperature of the reaction mixture at the end of the distillation is about 68–70°. The color of the distillate is a weak violet owing to the co-distillation of a small amount of
4,6,8-trimethylazulene. After the reaction mixture has cooled, it is transferred to a
3-l. separatory funnel and diluted, first with
75 ml. of methanol and then with 1 l. of water. This causes the separation of a dark violet oil which is taken up in
400 ml. of petroleum ether (b.p.
60–70°) and separated from the aqueous phase. The aqueous layer is extracted again with
200 ml. of fresh petroleum ether, and the combined
petroleum ether extracts are washed five times with 175-ml. portions of water. Since a small quantity of a greasy by-product separates at the interface during the washing with water, the
petroleum ether extract, after the final washing, is purified by passing it through a
Büchner funnel lined with asbestos fibers as a filtering aid. After the filtrate has been dried over
calcium chloride, the solution is concentrated under reduced pressure, and the residue is carefully freed of solvent by heating on a steam bath under reduced pressure for 4 hours.
The crude product is then transferred to an apparatus suitable for distillation of solids (Note
6), and this is joined to a high-vacuum system capable of a vacuum in the range of 10
−5 mm. Distillation begins when the bath temperature reaches about 190°; a boiling point of around 120° is usually observed. When the distillate first begins to appear brown rather than violet, the distillation is stopped immediately (Note
7). The crystalline distillate (ca.
70 g.) is dissolved in
20 ml. of hot ethanol, filtered while hot, and allowed to cool. The solid (about
60 g. of crystals, m.p.
74–76°) is recrystallized from
20 ml. of ethanol to yield
47–53 g. (
43–49%) of
4,6,8-trimethylazulene as dark-violet plates, m.p.
80–81° (Note
8).