A
1-L, three-necked, round-bottomed flask equipped with a
500-mL dropping funnel, a
nitrogen-inlet tube, a
mechanical stirrer, a
low-temperature thermometer, and a
calcium chloride drying tube is charged with
172 g (0.75 mol) of 1,2-bis(trimethylsiloxy) cyclobutene (Note
1) and
375 mL of anhydrous pentane (Note
2). A dry nitrogen atmosphere is maintained in the system (Note
3) and the solution is cooled to −60°C by means of a dry
ice-methanol bath. Then a solution of
120 g (0.75 mol) of bromine and
375 mL of anhydrous pentane is added dropwise with stirring over a period of 2 hr. When the addition is complete, the mixture must be heated to 40°C for 2 hr (Note
4) and concentrated by removing ca. 550 mL of solvent under reduced pressure (15 mm) at room temperature. To isolate the dione the residue is cooled to −60°C by immersion of the flask in a dry ice–methanol bath. The crystallized product is
quickly filtered through a hermetically sealed (Note
3),
250-mL sintered-glass funnel (porosity 3), a dry nitrogen pressure being used to push down solvent. The yellow solid is washed with stirring with eight
25-mL portions of anhydrous pentane cooled to −60°C and sucked as dry as possible on the filter. The
pentane used in the washing is concentrated under reduced pressure (15 mm) at room temperature to ca. 15 mL, then the flask is again cooled to −60°C. The crystallized product is washed with four
15-mL portions of anhydrous pentane cooled to −60°C as before. The two batches of crystals are of approximately equal purity. The yield of
1,2-cyclobutanedione is
42–46 g (
70–73%), mp
65°C (Note
5).