A solution of
potassium hydroxide is prepared by dissolving
122 g. (2.2 moles; 1.5 times the theoretical amount) of potassium hydroxide in 700 cc. of 95 per cent methyl alcohol (Note
1) contained in a
2-l. round-bottomed flask provided with a
reflux condenser. To this alkaline solution is added
100 g. (0.36 mole) of α,β-dibromosuccinic acid (p. 177), and the mixture is refluxed for one hour and fifteen minutes on a
steam bath. The reaction mixture is cooled and filtered with suction. The mixed salts are washed with
200 cc. of methyl alcohol (Note
2) and dried by pressing between filter papers; when dry the product weighs
144–150 g.
This salt mixture is dissolved in 270 cc. of water, and the acid potassium salt is precipitated by adding
8 cc. of concentrated sulfuric acid in 30 cc. of water. After standing for three hours, or overnight, the mixture is filtered with suction (Note
3). The acid salt is then dissolved in 240 cc. of water to which
60 cc. of concentrated sulfuric acid has been added, and the solution is extracted with five
100-cc. portions of ether. The combined
ether solutions are evaporated to dryness on a steam bath, leaving pure hydrated crystals of
acetylenedicarboxylic acid. After drying for two days over concentrated
sulfuric acid in a
vacuum desiccator the crystals decompose sharply at 175–176°. The yield is
30–36 g. (
73–88 per cent of the theoretical amount).