Nitrous acid | |
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Nitrous acid |
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Hydroxidooxidonitrogen |
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Identifiers | |
CAS number | 7782-77-6 |
PubChem | 24529 |
ChemSpider | 22936 |
EC number | 231-963-7 |
KEGG | C00088 |
MeSH | Nitrous+acid |
ChEBI | CHEBI:25567 |
ChEMBL | CHEMBL1161681 |
Gmelin Reference | 983 |
3DMet | B00022 |
Jmol-3D images | Image 1 |
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Properties | |
Molecular formula | HNO2 |
Molar mass | 47.013 g/mol |
Appearance | Pale blue solution |
Density | Approx. 1 g/ml |
Melting point |
Only known in solution |
Acidity (pKa) | 3.398 |
Hazards | |
EU Index | Not listed |
Flash point | Non-flammable |
Related compounds | |
Other anions | Nitric acid |
Other cations | Sodium nitrite Potassium nitrite Ammonium nitrite |
Related compounds | Dinitrogen trioxide |
(verify) (what is: / ?) Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa) |
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Infobox references |
Nitrous acid (molecular formula HNO2) is a weak and monobasic acid known only in solution and in the form of nitrite salts.
Nitrous acid is used to make diazides from amines; this occurs by nucleophilic attack of the amine onto the nitrite, reprotonation by the surrounding solvent, and double-elimination of water. The diazide can then be liberated to give a carbene or carbenoid.
Contents |
In the gas phase, the planar nitrous acid molecule can adopt both a cis and a trans form. The trans form predominates at room temperature, and IR measurements indicate it is more stable by around 2.3 kJ mol−1.[1]
(from the microwave spectrum) |
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When cold, dilute solutions of nitrite ion, NO2− are carefully acidified, a light blue solution of nitrous acid is produced. Free nitrous acid is unstable and decomposes rapidly.
In anything other than very dilute, cold solutions, nitrous acid rapidly decomposes into nitrogen dioxide, nitric oxide, and water:
Nitrogen dioxide disproportionates into nitric acid and nitrous acid in aqueous solution:[2]
In warm or concentrated solutions, the overall reaction amounts to production of nitric acid, water, and nitric oxide:
Nitrous acid is used to prepare diazonium salts:
where Ar is an aryl group.
Such salts are widely used in organic synthesis, e.g., for the Sandmeyer reaction and in the preparation azo dyes, brightly-colored compounds that are the basis of a qualitative test for anilines.[3] Nitrous acid is used to destroy toxic and potentially-explosive sodium azide. For most purposes, nitrous acid is usually formed in situ by the action of mineral acid on sodium nitrite:[4]
Reaction with two α-hydrogen atoms in ketones creates oximes, which may be further oxidized to a carboxylic acid, or reduced to form amines. This process is used in the commercial production of adipic acid.
Nitrous acid reacts rapidly with aliphatic alcohols to produce alkyl nitrites, which are potent vasodilators:
Nitrous acid is involved in the ozone budget of the lower atmosphere: the troposphere. The heterogeneous reaction of nitrogen monoxide (NO) and water produces nitrous acid. When this reaction takes place on the surface of atmospheric aerosols, product readily photolyses to hydroxyl radicals.