In a
500-cc. beaker are placed
360 g. (6.4 moles) of powdered potassium hydroxide and
240 g. (3 gram atoms) of black powdered selenium which have been previously ground together in a
mortar. This mixture is heated (Note
1) in an
oil bath at 140–150° until a thick, dark red liquid is formed (Note
2), and then it is added (Note
3) in small portions to 400 cc. of ice water in a
5-l. flask. The solution is kept in an
ice bath until used.
To
375 cc. (4.3 moles) of hydrochloric acid (sp. gr. 1.18) and 200 g. of ice is added
139.6 g. (1.5 moles) of aniline. The resulting solution is diazotized with a solution of
103.5 g. (1.5 moles) of c.p. sodium nitrite, ice being added to the reaction mixture, as necessary, in order to keep the temperature below 5°. The final volume of the diazotized solution is about 1 l. This solution is added in a slow stream from a
dropping funnel to the
potassium selenide solution, which is vigorously stirred with a
mechanical stirrer. When all the diazotized solution has been added, the red aqueous solution is decanted from the dark oil which forms and is heated to boiling (Note
4). It is then poured back on the oil, the mixture is well stirred (Note
5),
200 cc. of chloroform is added, and the
selenium is collected on a filter and washed with a little more
chloroform (Note
6). After the
chloroform layer is separated, the aqueous layer is again extracted with
200 cc. of chloroform. The combined extracts are then distilled, the
diphenyl selenide being collected from 300 to 315°. The yield of yellow oil of rather unpleasant odor is
138–150 g. (
79–86 per cent of the theoretical amount) (Note
7). If a purer product is desired, this material can be distilled under diminished pressure. It boils at
165–167°/12 mm.