Notes. Reaction of Methylene with Diethyl Ether and Tetrahydrofuran

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136 TABLE I hT-AmYL MALEAMIC Acrns Alkyl Group

Yield,

Butyl Octyl Decyl Dodecyl Tetradecyl Hexadccyl Octadecyl

97 63 83 72 55 77 86

7%

5 4 5 5

M.P., “C. 79-80 80-82 83-84 92-94 96-97 5 99-101 102-104

% X

Theory 8 6 5 4 4 4 3

Found 8 20 6.08 5 27 5 01 4.51 4.29 3.87

19 18 49 05 50 13 81

held a t this temperature for 2 hr. The residue was heated under reduced pressure and the water and product distilled off to a pot temperature of 210°/30 mm. The crude product was then redistilled under reduced pressure. The maleimides are characterized in Table 11. The synthesis of N-butyl maleimide was improved by removing the xylene under reduced pressure. Yields of 50% were obtained.

-~

Alkyl GrouD

VOL.

NOTES

TABLE I1 N-ALKYLMALEIMIDES

M.P.,

24

instances methylene reacted indiscriminately with the various kinds of hydrogen atom. We wondered whether ether oxygen would permit the operation of the “ylid” mechanism discussed by Huisgen3 (Chart 1, paths b and c) and thus cause the ratio of products to deviate from the statistical expected of the direct insertion mechanism (Chart 1, path a). I n the reaction with cyclopentane2 participation of a direct insertion into the carbon-carbon bond, to form cyclohexane, was not observable. With ethers, however, intermediate “ylid” formation might be followed by rearrangement (Chart 1, paths b and d), with insertion into the carboncarbon bond being the end result. As first pointed :CH2

+

I

b

I