Semicarbazide Explained

Semicarbazide is the chemical compound with the formula OC(NH2)(N2H3). It is a water-soluble white solid. It is a derivative of urea.

Synthesis

The compound prepared by treating urea with hydrazine:[1]

OC(NH2)2 + N2H4 → OC(NH2)(N2H3) + NH3A further reaction can occur to give carbohydrazide:

OC(NH2)(N2H3) + N2H4 → OC(N2H3)2 + NH3

Derivatives

Semicarbazide is frequently reacted with aldehydes and ketones to produce semicarbazones via a condensation reaction. This is an example of imine formation resulting from the reaction of a primary amine with a carbonyl group. The reaction is useful because semicarbazones, like oximes and 2,4-DNPs, typically have high melting points and crystallize, facilitating purification or identification of reaction products.[2]

Properties

Semicarbazide products (semicarbazones and thiosemicarbazones) are known to have an activity of antiviral, antiinfective and antineoplastic through binding to copper or iron in cells.

Uses, occurrence, detection

Semicarbazide is used in preparing pharmaceuticals including nitrofuran antibacterials (furazolidone, nitrofurazone, nitrofurantoin) and related compounds. It is also a product of degradations of the blowing agent azodicarbonamide (ADC). Semicarbazide forms in heat-treated flour containing ADC as well as breads made from ADC-treated flour.[3] [4]

Semicarbazide is used as a detection reagent in thin layer chromatography (TLC). Semicarbazide stains α-keto acids on the TLC plate, which can then be viewed under ultraviolet light.

See also

External links

Notes and References

  1. Jean-Pierre Schirmann, Paul Bourdauducq "Hydrazine" in Ullmann's Encyclopedia of Industrial Chemistry, Wiley-VCH, Weinheim, 2002. .
  2. Book: Organic Chemistry. John McMurry. 1984. Brooks/Cole. 676.
  3. Becalski. Adam. Lau. Benjamin. Lewis. David. Seaman. Stephen. Semicarbazide Formation in Azodicarbonamide-Treated Flour: A Model Study. J. Agric. Food Chem.. 2004. 52. 18. 5730–4. 10.1021/jf0495385. 15373416.
  4. Semicarbazide: occurrence in food products and state-of-the-art in analytical methods used for its determination. Anal. Bioanal. Chem.. 2005. 382. 4. 968–977 . Maria Beatriz de la Calle . Elke Anklam . 10.1007/s00216-005-3243-z. 15947918. 10765283.