A.
Potassium monomethyl malonate.
Dimethyl malonate ((Note 1), 264.2 g, 2.0 mol) is dissolved in anhydrous
methanol ((Note 2), 1150 mL) contained in a
dry, 3-L, one-necked flask containing a
large magnetic stirring bar and protected from atmospheric moisture with a
calcium sulfate-filled drying tube. The solution is stirred magnetically and cooled to
ice-water bath temperature.
Potassium hydroxide pellets (112.2 g 2.0 mol) are added rapidly to the cold solution and the reaction mixture is allowed to warm to room temperature with stirring overnight. The colorless crystals of
potassium monomethyl malonate that form are recovered by suction filtration through a
Büchner funnel and washed with anhydrous
diethyl ether. The combined filtrate and
diethyl ether wash are concentrated at 30°C to a volume of ca. 750 mL on a
rotary evaporator. The resulting crystalline precipitate is recovered as before by filtration and washing and combined with the first crop of crystals to give
220 g (
71%) of
potassium monomethyl malonate as fine colorless needles, mp
204–207°C. These crystals are dried under vacuum (0.1 mm) before use in the following reaction.
B.
Methyl diformylacetate. Freshly distilled
phosphorus oxychloride (612 g, 4 mol) is added dropwise with constant stirring at ambient temperature (Note
3) to
dimethylformamide (1460 g) contained in a
3-L, three-necked flask equipped with a
mechanical paddle stirrer,
immersion thermometer, and a
500-mL pressure-equalizing addition funnel fitted with a
calcium chloride-filled drying tube. The reaction mixture warms up and turns to a dark reddish-brown color during addition of the
phosphorus oxychloride and formation of the Vilsmeier reagent [(CH
3)
2N
+=CHCl Cl
−]. The addition funnel is replaced with a
10-in. long West condenser (Note
4), and then the reaction mixture is cooled to 0°C by immersing the reaction flask in an
ice-salt water bath. The cooling bath is removed and
potassium monomethyl malonate (206 g, 1.32 mol) is added to the stirred reaction mixture in ten equal portions over a 30 min period (Note
3) and (Note
5), keeping the temperature of the mixture below 90°C. The dark-brown mixture then is stirred and heated on a
water bath at 90°C for 4 hr. Gas (
CO2 plus HCl) evolves initially from the reaction on heating (Note
6). The thermometer is replaced with a
glass stopper, the condenser is fixed for distillation by addition of a
distilling head and vacuum distillation receiver, and the reaction solvent is removed from the flask by distillation at ca. 2 mm on a
steam bath (Note
7). The resulting dark-brown liquid is poured onto ice (4 kg, (Note
3)). A saturated aqueous solution of
potassium carbonate (1.3 kg) is added slowly to the ice-cold crude reaction product with constant stirring until the pH of the mixture stabilizes at ca. 1 l. Considerable foaming and gas evolution (CO
2) occur during the addition of the base. The resulting basic solution is stirred magnetically at ambient temperature for 48 hr and then extracted with
ethyl acetate in four 1-L portions. The organic phases are discarded, and the aqueous phase is saturated with
potassium chloride (500 g) by stirring at ambient temperature until no more salt dissolves. This mixture is mixed with ice (1 kg), slowly acidified to pH 1 with ice-cold
12 N hydrochloric acid, and then thoroughly extracted with four
2-L portions of diethyl ether (Note
8). The combined cold
ether extracts are washed with a saturated aqueous solution of
potassium chloride (4 L) and dried over anhydrous
sodium sulfate (500 g) for 1 hr. The solution is decanted from the desiccant, combined with a
500-mL diethyl ether wash of the desiccant, concentrated under reduced pressure to ca. 500 mL, and redried over anhydrous
sodium sulfate. After removal of the desiccant by gravity filtration, the
diethyl ether is removed by rotary evaporation at water aspirator pressure and 25°C. Fractional distillation of the resulting liquid residue at 2 mm with a N
2 bleed capillary through a
Claisen head first gives a little
dimethylformamide. When
dimethylformamide ceases to distill (Note
9), the receiver is cooled in a
dry ice–ethanol bath and the
methyl diformylacetate distilled at
58–61°C to give
86–94 g (
50–55%) of a colorless, solid distillate, which melts at about 10°C (Note
10) and (Note
11).
Methyl diformylacetate prepared in this way is stable for at least 6 months if stored at −20°C.