A
dry 125-ml. three-necked flask fitted (glass joints) with a
sealed mechanical stirrer, an
addition funnel, and a
reflux condenser capped with a
calcium chloride drying tube, is charged with
30.0 g. (0.15 mole) of dodecanoic acid (Note
2) and
0.6 ml. (0.007 mole) of phosphorus trichloride. The mixture is heated at 90–95° (bath temperature), and
8.5 ml. (0.165 mole) of dry bromine (Note
3) is added in one portion with stirring. After stirring for 3 hours at 90–95°, an additional
7.7 ml. (0.15 mole) of dry bromine is added, and the heating and stirring are continued for an additional 7 hours. The dark reaction mixture is then cooled, dissolved in about
100 ml. of carbon tetrachloride, and shaken vigorously with two 100-ml. portions of water. The organic solution is filtered through anhydrous
sodium sulfate, and the solvent and excess
bromine are removed by distillation at steam-bath temperature and reduced pressure (
water aspirator). The residue of bromo acid, which is pale orange in color, is slowly and cautiously added at room temperature to a solution of
potassium tert-butoxide which has been prepared from 14.7 g. (0.375 g. atom) of potassium (Note 1) and 350 ml. of dry tert-butyl alcohol (Note
1), and is contained in a
1-l. flask fitted with a reflux condenser that is protected from moisture with a calcium chloride tube. The resultant thick suspension is heated at gentle reflux for 3–4 hours on a
steam bath, then cooled, diluted with about 1 l. of water, and acidified to Congo red with
5N sulfuric acid. The mixture, containing the precipitated liquid dodecenoic acids, is extracted with two
100-ml. portions of hexane (or a comparable
petroleum ether fraction), and the combined
hexane solutions are washed with water and dried by filtration through anhydrous
sodium sulfate. The
hexane is removed by flash distillation, and the residual acid is fractionally distilled through a
2-ft. Podbielniak-type column (Note
4) and (Note
5). After a small fore-run, the main fraction of dodecenoic acids is collected over a 3° range at about 166–169°/3 mm. The yield is 14–15 g. (47–50%),
nD25 ca. 1.4610 (Note
6).
The distilled mixture of dodecenoic acids is dissolved in
150 ml. of commercial absolute ethanol containing
1.3 ml. of concentrated sulfuric acid and allowed to stand in a stoppered flask for 2 hours at 20°. The solution is diluted with 600 ml. of water and extracted with two
150-ml. portions of 60–68° petroleum ether. The extracts are washed with water and percolated through a Kies extraction apparatus (Note
7) consisting of three stages containing, respectively,
9.9 g. of 85% potassium hydroxide (0.15 mole) in 250 ml. of 20% ethanol,
2.5 g. of 85% potassium hydroxide (0.038 mole) in 125 ml. of 20% ethanol, and 125 ml. of water. An additional
250 ml. of petroleum ether is then passed through the extraction apparatus. The three aqueous layers are combined, acidified to Congo red with
5N sulfuric acid, and extracted with
petroleum ether. The combined organic layers are washed with water and dried over anhydrous
sodium sulfate. The solvent is removed by flash distillation and the residue distilled in a
modified Claisen flask. The yield of colorless
2-dodecenoic acid, b.p.
155–158°/3 mm.,
127–130°/0.15 mm., is
8–10 g. (
27–34%),
nD25 1.4629, λ
max 210 mμ (ε 13,650) in
hexane, m.p.
13–18°.