Checked by R. S. Schreiber and A. H. Nathan.
1. Procedure
In a
500-ml. beaker equipped with a mechanical stirrer are placed
27 g. (0.2 mole) of p-aminoacetophenone (Note
1), 100 g. of chopped ice, and
53 ml. of concentrated hydrochloric acid (sp. gr. 1.19). To the stirred mixture is added, over a period of 5 minutes, a solution of
13.8 g. (0.2 mole) of sodium nitrite dissolved in 75 ml. of water. The stirring is continued for 15 minutes, during which all the insoluble amine hydrochloride reacts to form the soluble diazonium compound (Note
2).
In a
4-l. beaker, equipped with a high-speed stirrer (Note
3), are placed
20 g. (0.185 mole) of quinone (Note
4),
34 g. (0.4 mole) of sodium bicarbonate, 50 g. of chopped ice, and 500 ml. of water. About 10 ml. of the above diazonium salt solution is added (Note
5). After the frothing has subsided (Note
6), the diazonium salt solution is added in 10- to 20-ml. portions over a period of about an hour (Note
7). The temperature of the reaction mixture is kept below 15° during this period by the addition of ice. After the diazonium salt solution has been added, the mixture is allowed to warm to room temperature, and the stirring is continued for an additional hour. The precipitate of
2-p-acetylphenylquinone is collected on a
Büchner funnel and washed thoroughly with approximately 1 l. of water. The yield of crude yellow-brown solid is
40–41 g. (
96–98%). The melting point ranges from
125–135° to 134–136° (Note
8).
The crude
quinone is dissolved in
250 ml. of chloroform (Note
9) and added to a solution of
40 g. of sodium hydrosulfite in 300 ml. of water. The mixture is shaken for 10 minutes, and the light-tan
2-p-acetylphenylhydroquinone which precipitates from solution is collected on a Büchner funnel and dried. The yield of crude hydroquinone is
32–37 g. (
78–92%). The melting point ranges from
175–180° to 184–194° (Note
10).
A suspension of
35 g. (0.153 mole) of 2-p-acetylphenylhydroquinone in
77 ml. of acetic anhydride is treated with
0.5 ml. of concentrated sulfuric acid (sp. gr. 1.84). The hydroquinone goes into solution immediately with the evolution of much heat. The dark-colored solution is allowed to stand at room temperature overnight; then it is poured into 400 ml. of water. The acetylated material is collected by suction filtration and dried. The crude
2-p-acetylphenylhydroquinone diacetate is distilled at reduced pressure (b.p.
236–241°/1 mm. or
182–190°/0.1 mm.), and the hot distillate is poured into
20 ml. of n-butyl alcohol (Note
11). The product immediately separates as a colorless, crystalline mass, which is collected by suction filtration and dried. The yield is
32–35 g. (
67–73%), m.p.
104–105°.
To a
300-ml. three-necked round-bottomed flask, equipped with a sealed stirrer, a condenser, and a gas inlet tube, is added a solution of
34 g. (0.11 mole) of 2-p-acetylphenylhydroquinone diacetate in
140 ml. of hot methanol. The solution is cooled to room temperature, causing some of the
hydroquinone diacetate to crystallize. A slow stream of
nitrogen is passed through the suspension, and
70 ml. of methanol containing 6.1 g. of anhydrous hydrogen chloride is added. The reaction mixture is stirred at room temperature for 2 hours under
nitrogen, during which period the
hydroquinone diacetate gradually dissolves. The pale yellow solution is poured onto 500 g. of chopped ice, and the colorless or faintly yellowish solid is collected by suction filtration and dried. The yield of
p-acetylphenylhydroquinone melting at
193–194° is
24.8 g. (quantitative). The over-all yield of product based on
quinone is
50–66%.
2. Notes
1. The
purest grade of p-aminoacetophenone supplied by the Eastman Kodak Company was used without further purification.
2. This reaction has been successfully carried out on a 3-mole scale.
3. A "Lightnin" mixer (manufactured by the Mixing Equipment Company, Rochester, N. Y.) equipped with a propeller stirrer was used. If rapid stirring is not maintained, the reaction does not go to completion.
4. The checkers used a
practical grade of quinone obtainable from the Eastman Kodak Company.
5. If
nitrogen is not evolved immediately, the reaction may be initiated by the addition of a small amount of
hydroquinone.
6. If the foaming becomes too violent, a few drops of
octyl alcohol are added.
7. The checkers found it convenient to add the diazonium salt solution slowly from a dropping funnel. The time of addition was 25–45 minutes.
8. Recrystallization from
butanol gives material melting at
139–140°. The pure substance is reported to melt at
152–153°.2
9.
Ethanol can also be used as a solvent but has the disadvantage of more readily dissolving the
hydroquinone, thus making it necessary to evaporate the solution nearly to dryness.
10. It is difficult to purify the crude
hydroquinone by recrystallization; therefore the remainder of the procedure is recommended in order to obtain a highly purified product.
11. The checkers found it convenient to crystallize the viscous distillate from
125 ml. of methanol by chilling a hot solution in the refrigerator overnight. A small second crop amounting to about 2 g. may also be obtained by concentration of the mother liquors.
3. Discussion
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