Imidic acid
In chemistry, an imidic acid is any molecule that contains the -C(=NH)-OH functional group.[1] It is the tautomer of an amide and the isomer of an oxime.
The term "imino acid" is an obsolete term for this group that should not be used in this context because it has a different molecular structure.[2]
Imidic acids can be formed by metal-catalyzed dehydrogenation of geminal
methanolamine
, the parent compound of the amino alcohols, can be dehydrogenated to methanimidic acid, the parent compound of the imidic acids.
- H2NCH2OH → HNCHOH + H2 (tautomer of formamide)
Geminal amino alcohols with side chains similarly form imidic acids with the same side chains:
- H2NCHROH → HNCROH + H2
Another way to form imidic acids is the reaction of carboxylic acids with
azanone. For example, the reaction for carbamic acid
:
- H2NCOOH + HNO → H2NCNHOH + O2 (tautomer of urea)
And the general reaction for substituted imidic acids:
- RCOOH + R'NO → RCNR'OH + O2
Another mechanism is the reaction of carboxylic acids with
azanone
.
- RCOOH + HNNH → RCNHOH + HNO
Imidic acids tautomerize to
amides
by a hydrogen shift from the oxygen to the nitrogen atom. Amides are more stable in an environment with oxygen or water, whereas imidic acids dominate the equilibrium in solution with ammonia or methane.
- HNCHOH ⇌ HCONH2
- RNCR'OH ⇌ R'CONHR
See also
- Imidate
- Alkanolamine
- Hemiaminal