A dry,
500-ml., three-necked flask equipped with
stirrer,
thermometer,
condenser, and
dropping funnel is purged with dry
nitrogen and charged with
16 g. (0.33 mole) of a 50% dispersion of sodium hydride in mineral oil (Note
1) and
100 ml. of dry benzene (Note
2). To this stirred mixture is added dropwise over a 45–50 minute period
74.7 g. (0.33 mole) of triethyl phosphonoacetate (Note
3). During the addition period the temperature is maintained at 30–35°, and cooling is employed if necessary (Note
4). Vigorous evolution of
hydrogen is noted during this portion of the reaction. After addition of
triethyl phosphonoacetate is completed, the mixture is stirred for 1 hour at room temperature to ensure complete reaction (Note
5). To this nearly clear solution is added dropwise over a 30–40 minute period
32.7 g. (0.33 mole) of cyclohexanone (Note
6). During the addition the temperature is maintained at 20–30° by appropriate cooling with an
ice bath. After approximately one-half of the ketone is added, a gummy precipitate of
sodium diethyl phosphate forms, which in some instances makes agitation difficult. The mixture is then heated at 60–65° for 15 minutes, during which time it is stirred without difficulty. The resulting product is cooled to 15–20°, and the mother liquor is decanted from the precipitate. This gummy precipitate is washed well by mixing it at 60° with several
25-ml. portions of benzene and decanting at 20° (Note
7).
Benzene is distilled from the combined mother and wash liquors at atmospheric pressure. The product is distilled through a
20-cm. Vigreux column, and the mineral oil remains as pot residue after distillation is completed.
Ethyl cyclohexylideneacetate (
37–43 g.,
67–77% yield) is collected at
48–49° (0.02 mm.),
n25D 1.4755 (Note
8).