A solution of
200 g. (3.6 moles) of potassium hydroxide in 200 cc. of water is placed in a
2-l. flask fitted with a
reflux condenser. The mixture is heated to about 80°, and
202 g. (1 mole) of isopropylmalonic ester (Note
1) is added through the condenser over a period of about one hour. The mixture should be shaken well to prevent the formation of two layers. The saponification proceeds rapidly, forming a clear solution. The solution is transferred to a
20-cm. evaporating dish, the flask is rinsed with 50 cc. of water, and the solution and washings are evaporated practically to dryness on a
steam bath (Note
2).
The residue is dissolved in 200 cc. of water, transferred to a
1-l. flask, and cooled to 0° in an
ice-salt bath. A mixture of
400 cc. of concentrated hydrochloric acid (sp. gr. 1.19) and 200 g. of cracked ice is added slowly until the mixture is acid to
Congo red. The temperature of the mixture must not rise above 10° (Note
3).
Potassium chloride separates. The mixture is extracted with two
200-cc. portions and four 100-cc. portions of alcohol-free ether (Note
4) to remove the
isopropylmalonic acid. The
ether solution (Note
5) is placed in a flask fitted with a reflux condenser, and
160 g. (1 mole) of bromine is added gradually over a period of about two hours at such a rate that the
ether boils gently (Note
6). When the bromination is complete, the
ether solution is washed with 100 cc. of water to remove the
hydrobromic acid, dried over
25 g. of calcium chloride, and freed from
ether by distillation on the steam bath. The crude
isopropylbromomalonic acid is heated in the distilling flask in an
oil bath at 125–130° until no more
carbon dioxide is evolved. It is then distilled under reduced pressure; the fraction distilling at 140–160°/40 mm. is collected separately and redistilled (Note
7). The yield of product boiling at
148–153°/40 mm. (
125–130°/15 mm.) is
100–120 g. (
55–66 per cent of the theoretical amount) (Note
8).