Powdered
potassium hydroxide (29.4 g., 0.43 mole) is placed in a
500-ml. round-bottomed flask.
Guaiacol (75 g., 0.60 mole) is added, and the mixture is allowed to react exothermically. After the reaction is complete, the mixture is stirred with a
glass rod and then heated under reduced pressure for 3 hours at 150° in an
oil bath (Note
1).
To the dry salt is added
0.3 g. of copper powder (Note
2),
81 g. (0.51 mole) of bromobenzene, and a few drops of
guaiacol (Note
3). The mixture is stirred thoroughly with a glass rod; the flask is fitted with an
air condenser and heated in a
metal bath (Note
4). A reaction becomes evident at a bath temperature of 160–180°, liquefaction occurs, and the color of the mixture changes to red or purple. The temperature is gradually raised to 200° and maintained at 200° for 2 hours.
After cooling, the products are extracted from the reaction mixture with successive portions of water and
ether. Extraction is facilitated by breaking up the solid material with a glass rod. The total amounts. of solvents required are approximately 750 ml. of water and
150 ml. of ether. The combined
ether and water solutions are transferred to a
3-l. round-bottomed flask and steam-distilled with superheated steam maintained at 180–200°. After removal of the
ether, 300 ml. of distillate is collected. This distillate contains the unreacted starting materials. Continued distillation gives
64–69 g. (
62–67%) of crude solid
2-methoxydiphenyl ether in 14 l. of distillate. The product is filtered with suction and dried. Crystallization from a mixture of
600 ml. of low-boiling petroleum ether (b.p.
30–60°) and
435 ml. of higher-boiling petroleum ether (b.p.
60–70°) yields
54–61 g. of
2-methoxydiphenyl ether melting at
77–78°. Other 2-methoxydiphenyl ethers have been prepared by this procedure (Note
5).