(
A)
Dinitrodurene.—A solution of
13.4 g. (0.1 mole) (Note 1) and (Note 2) of durene (p. 248) in
100 cc. of chloroform is added to
75 cc. of concentrated sulfuric acid in an
800-cc. beaker provided with a
thermometer and an
efficient mechanical stirrer. The mixture is cooled to 10°, and
16 g. (10.7 cc.) of fuming nitric acid (sp. gr. 1.5) (Note
3) is added drop by drop, with stirring, from a
125-cc. separatory funnel, the mixture being cooled in an
ice-salt bath and the
nitric acid added at such a rate that the temperature does not rise above 50° (about fifteen minutes is required for the addition). As soon as all the acid has been added the mixture is poured into a separatory funnel, the
sulfuric acid layer is removed, and the upper
chloroform layer is immediately (Note
4) run into
500 cc. of 10 per cent sodium carbonate solution. The
sulfuric acid layer is discarded because it contains very little
dinitrodurene. Four portions are nitrated, and the combined
chloroform solutions are washed twice with
2.5 per cent sodium carbonate solution, dried overnight with
30 g. of anhydrous calcium chloride, filtered, and the
chloroform distilled until crystals of
dinitrodurene begin to appear. At this point four times the volume of hot
95 per cent ethyl alcohol is added (about 500 cc.), and the resulting mixture is cooled to 10°. The solid is filtered and washed twice with
50 cc. of cold (10°) 95 per cent ethyl alcohol. The yield from four nitrations is
82.5–84 g. (
92–94 per cent of the theoretical amount) of a product melting at
207–208° (Note
5).
(
B)
Reduction of Dinitrodurene.—A solution of
90 g. of dinitrodurene in
1 l. of glacial acetic acid is boiled in a
12-l. flask (Note
6);
700 g. of stannous chloride is dissolved in
800 cc. of concentrated hydrochloric acid and heated to boiling. The heat is removed from the
acetic acid solution of the nitro compound, and the
stannous chloride solution is poured very carefully (during about ten minutes) into the
dinitrodurene solution. The reaction is complete in fifteen minutes, and, as the solution cools, the
stannic chloride compound of the diamine begins to crystallize. The reaction mixture is cooled to 10° in an
ice-water bath, and the solid is filtered by suction, washed twice with
50 cc. of 95 per cent ethyl alcohol and twice with
50 cc. of ether, and dried. The filtrates from the tin compound contain very little of the reduction product and may be discarded. The composition of this compound is
[C6(CH3)4(NH2·HCl)2]2·SnCl4, and it crystallizes from the reaction mixture in fine, glistening plates which are almost colorless. The yield is
145 g. (
97 per cent of the theoretical amount).
(
C)
Duroquinone.—A suspension of
100 g. of the tin compound in a solution of
300 g. of ferric chloride crystals in a mixture of 150 cc. of water and
20 cc. of concentrated hydrochloric acid is allowed to stand overnight at about 30°, and is then filtered. The product is dissolved in
150 cc. of hot 95 per cent ethyl alcohol. The solution is filtered and allowed to stand overnight at 30°. The yield is
40 g. of
duroquinone (
90 per cent of the theoretical amount) melting at
109–110°.