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Nitroso Information

Nitroso refers to a functional group in organic chemistry which has the general formula RNO. Nitroso compounds are a class of organic compounds containing the nitroso functional group, R−N=O.

Nitrosyls are molecules with the general formula RNO, where R represents an unspecified substituent.

Nitroso and bent Nitrosyl are synonyms; nitroso is used in organic chemistry, while bent nitrosyl is used in inorganic chemistry. Neither Nitroso nor bent Nitrosyl are identical to linear Nitrosil, which possesses sp hybridization. A common example of a nitroso compound is nitrosyl chloride, NOCl (although its structure is better represented ONCl).

Nitrosyl also refers to the discrete molecule nitric oxide, NO. Nitric oxide is a stable radical, having an unpaired electron.

Reduction of nitric oxide gives the hyponitrite anion, NO:

NO + e → NO

Oxidation of NO yields the nitrosonium cation, NO+:

NO → NO+ + e

Contents

Nitrosyl as a ligand

Linear and bent metal nitrosyls Main article: Metal nitrosyl

Nitric oxide can serve as a ligand in complexes. The resulting complexes are called metal nitrosyls, and can bond to a metal atom in two distinct modes: as NO+ and as NO. NO+ coordinates linearly, the M−N−O angle being 180°, whereas NO forms a bent geometry, with an M−N−O angle of approximately 120°.

Nitroso compounds

Nitroso compounds can be prepared by the reduction of nitro compounds or by the oxidation of hydroxylamines. A good example is (CH3)3CNO, known formally as 2-methyl-2-nitrosopropane, or t-BuNO, which is prepared by the following sequence:[1]

(CH3)3CNH2 → (CH3)3CNO2
(CH3)3CNO2 → (CH3)3CNHOH
(CH3)3CNHOH → (CH3)3CNO

(CH3)3CNO is blue and exists in solution in equilibrium with its dimer, which is colorless, m.p. 80 − 81 °C.

In the Fischer-Hepp rearrangement aromatic 4-nitroso-anilines are prepared from the corresponding nitrosamines. Another named reaction involving a nitroso compound is the Barton reaction.

Nitrosation vs. nitrosylation

Nitrite can enter two kinds of reaction, depending on the physico-chemical environment.

In food

Nitrosyl-heme

In foodstuffs and in the gastro-intestinal tract, nitrosation and nitrosylation do not have the same consequences on consumer health.

See also

References

  1. ^ A. Calder, A. R. Forrester, and S. P. Hepburn 2-Methyl-2-nitrosopropane and Its Dimer Organic Syntheses, Coll. Vol. 6, p.803; Vol. 52, p.77. Link
  2. ^ PMID 5041776
  3. ^ PMID 3756808
  4. ^ Honikel, K.O., 2008, "The use an control of nitrate and nitrite for the processing of meat products", Meat Science, 78, 68-76. doi 10.1016/j.meatsci.2007.05.030
  5. ^ PMID 7285009
  6. ^ PMID 8631138
  7. ^ PMID 17761300
Functional groups

Alcohol · Aldehyde · Alkane · Alkene · Alkyne · Amide · Amine · Azo compound · Benzene derivative · Carboxylic acid · Cyanate · Disulfide · Ester · Ether · Haloalkane · Hydrazone · Imine · Isocyanide · Isocyanate · Ketone · Organophosphorus · Oxime · Nitrile · Nitro compound · Nitroso compound · Peroxide · Phosphonous and Phosphonic acid · Pyridine derivative · Sulfone · Sulfonic acid · Sulfoxide · Thioester · Thioether · Thiol
See also Chemical classification

Categories: Functional groups | Nitroso compounds | Nitrosyl compounds

 

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