Magnesium turnings (39 g., 1.6 g. atoms) and
hexachlorobenzene (142.4 g., 0.5 mole, m.p.
228–229°) in
1 l. of dry ether are brought to gentle reflux in a
3-l. three-necked flask heated by a
Glascol® mantle at 20 volts (Note
1).
Ethylene bromide (188 g., 1.0 mole) in 200 ml. of dry benzene is added through a Hershberg funnel
2 over a period of 48 hours (about 1 drop/25 seconds) (Note
2). Efficient stirring is maintained throughout the period of addition, during which the reaction mixture turns dark brown and forms a precipitate. The mixture is cooled to room temperature, and
carbon dioxide, generated from dry ice and dried by passage through anhydrous
calcium chloride, is added under the surface of the stirred mixture for at least 3 hours and at such a rate as to minimize clogging of the entrance tube (Note
3). After this addition
10% aqueous hydrochloric acid is added slowly until the mixture is strongly acid. The
ether and
benzene are removed by distillation, and the crude
pentachlorobenzoic acid left in the water is removed by filtration and is washed free of salts with water. The dark-brown damp acid is converted to the ammonium salt by repeated extraction with hot dilute
ammonium hydroxide (1 part by volume of concentrated ammonium hydroxide and 2 parts of water) followed by decantation. The combined decanted solutions are treated with
Norit® while still hot, filtered, and then strongly acidified while still hot with concentrated
hydrochloric acid. The precipitated acid is digested for at least several hours (Note
4). After the suspension has been cooled, the crude brown-colored acid is removed by filtration, washed with cold water, and air-dried to give
113 g. (
77%) of product. The crude acid is recrystallized from
900 ml. of 50% aqueous methanol to yield
95 g. (
65%) of tan-colored needles, m.p.
202–206° (Note
5).