Oximide

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Oximide
Names
IUPAC name
Aziridine-2,3-dione
Other names
Oxalimide; 2,3-Aziridinedione
Identifiers
3D model (JSmol)
ChemSpider
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  • InChI=1S/C2HNO2/c4-1-2(5)3-1/h(H,3,4,5)
    Key: MEVHTHLQPUQANE-UHFFFAOYSA-N
  • C1(=O)C(=O)N1
Properties
C2HNO2
Molar mass 71.035 g·mol−1
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).

Oximide is an unstable chemical compound, the cyclic imide of oxalic acid. Other names for this are the systematic name 2,3-Aziridinedione or oxalimide. The chemical formula is C2HNO2. Its core is a three member heterocycle, aziridine.

Production

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In 1886 Ost and Mente claimed to produce oximide by the reaction of oxamic acid with phosphorus pentachloride (PCl5).[1] However, a product with a six member ring, tetraketopiperazine, may have been produced instead. Later attempts to reproduce the production of oximide by this method were a failure.[2] The first successful manufacture of oximide was by Hiromu Aoyama, Masami Sakamoto, and Yoshimori Omote in 1980.[3]

Properties

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Aziridine-2,3-dione has an infrared absorption band at 1954 cm−1.[3]

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The term "oximide" has also been used for oximes.[4]

Derivatives of oximide exist where the hydrogen atom is substituted by other organic groups such as methyl or phenyl. When 4-methyl-1,2,4-triazolinedione is irradiated by ultraviolet light with wavelength 335 nm in a noble gas matrix, some methylaziridine-2,3-dione is made (along with isocyanates, carbon monoxide and dinitrogen). Similarly 4-phenyl-1,2,4-triazolinedione irradiated by ultraviolet light with wavelength 310 nm makes some phenylaziridine-2,3-dione. Shorter wavelength ultraviolet light decomposes these compounds to isocyanates (-NCO).[5]

Another method to produce oximide derivatives is by the photolysis of substituted diphenylmaleylimide ozonide at liquid nitrogen temperature (77K) in a potassium bromide matrix. Derivatives made this way are methyl, isopropyl and phenylethyl-aziridine-2,3-dione. These compounds are unstable at higher temperatures, and when heated, decompose to carbon monoxide and isocyanates.[3]

References

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