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== Synthesis and properties ==
== Synthesis and properties ==
Organic nitrites are prepared from [[Alcohol (chemistry)|alcohol]]s and [[sodium nitrite]] in [[sulfuric acid]] [[Solution (chemistry)|solution]]. They decompose slowly on standing, the decomposition products being [[oxide]]s of [[nitrogen]], [[water]], the alcohol, and [[polymerization]] products of the [[aldehyde]].<ref>''n-butyl nitrite'' [[Organic Syntheses]], Coll. Vol. 2, p.108 (1943); Vol. 16, p.7 (1936). [http://www.orgsynth.org/orgsyn/prep.asp?prep=cv2p0108 http://www.orgsynth.org/orgsyn/prep.asp?prep=cv2p0108 Link]</ref> They are also prone to undergo homolytic cleavage to form alkyl radicals, the nitrite C–O bond being very weak (on the order of 40–50 kcal ⋅ mol<sup>−1</sup>).{{cn|date=August 2024}} Alkyl nitrites are generally weak [[nitrosation|nitrosating agents]], but nitrosating amines in the presence of a nucleophile catalyst.<ref>{{cite book|title=Nitrosation|first=D.&nbsp;L.&nbsp;H.|last=Williams|publisher=[[Cambridge University Press|Cambridge University]]|location=Cambridge, UK|year=1988|isbn=0-521-26796-X|url=https://archive.org/details/nitrosation0000will|url-access=registration|p=16}}</ref>
Organic nitrites are prepared from [[Alcohol (chemistry)|alcohol]]s and [[sodium nitrite]] in [[sulfuric acid]] [[Solution (chemistry)|solution]]. They decompose slowly on standing, the decomposition products being [[oxide]]s of [[nitrogen]], [[water]], the alcohol, and [[polymerization]] products of the [[aldehyde]].<ref>''n-butyl nitrite'' [[Organic Syntheses]], Coll. Vol. 2, p.108 (1943); Vol. 16, p.7 (1936). [http://www.orgsynth.org/orgsyn/prep.asp?prep=cv2p0108 http://www.orgsynth.org/orgsyn/prep.asp?prep=cv2p0108 Link]</ref> They are also prone to undergo homolytic cleavage to form alkyl radicals, the nitrite C–O bond being very weak (on the order of 40–50 kcal ⋅ mol<sup>−1</sup>).{{cn|date=August 2024}} Alkyl nitrites are generally weak [[nitrosation|nitrosating agents]], but nitrosate amines in the presence of a nucleophile catalyst.<ref>{{cite book|title=Nitrosation|first=D.&nbsp;L.&nbsp;H.|last=Williams|publisher=[[Cambridge University Press|Cambridge University]]|location=Cambridge, UK|year=1988|isbn=0-521-26796-X|url=https://archive.org/details/nitrosation0000will|url-access=registration|p=16}}</ref>


== Reactions ==
== Reactions ==

Latest revision as of 15:31, 1 September 2024

alkyl nitrites
General formula of alkyl nitrites

In organic chemistry, alkyl nitrites are a group of organic compounds based upon the molecular structure R−O−N=O, where R represents an alkyl group. Formally they are alkyl esters of nitrous acid. They are distinct from nitro compounds (R−NO2).

The first few members of the series are volatile liquids; methyl nitrite and ethyl nitrite are gaseous at room temperature and pressure. The compounds have a distinctive fruity odor. Another frequently encountered nitrite is amyl nitrite (3-methylbutyl nitrite).

Alkyl nitrites were initially, and largely still are, used as medications and chemical reagents, a practice which began in the late 19th century. In their use as medicine, they are often inhaled for relief of angina and other heart-related symptoms of disease. However, when referred to as "poppers", alkyl nitrites represent recreational drugs.

Synthesis and properties

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Organic nitrites are prepared from alcohols and sodium nitrite in sulfuric acid solution. They decompose slowly on standing, the decomposition products being oxides of nitrogen, water, the alcohol, and polymerization products of the aldehyde.[1] They are also prone to undergo homolytic cleavage to form alkyl radicals, the nitrite C–O bond being very weak (on the order of 40–50 kcal ⋅ mol−1).[citation needed] Alkyl nitrites are generally weak nitrosating agents, but nitrosate amines in the presence of a nucleophile catalyst.[2]

Reactions

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An isolated but classic example of the use of alkyl nitrites can be found in Woodward and Doering's quinine total synthesis:[10]

Key step in quinine total synthesis by Woodward / Doering

for which they proposed this reaction mechanism:

Reaction mechanism for ring opening

References

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  1. ^ n-butyl nitrite Organic Syntheses, Coll. Vol. 2, p.108 (1943); Vol. 16, p.7 (1936). http://www.orgsynth.org/orgsyn/prep.asp?prep=cv2p0108 Link
  2. ^ Williams, D. L. H. (1988). Nitrosation. Cambridge, UK: Cambridge University. p. 16. ISBN 0-521-26796-X.
  3. ^ Chemoselective Nitration of Phenols with tert-Butyl Nitrite in Solution and on Solid Support Organic Letters, Coll. Vol 11, p.4172-4175 (2009)
  4. ^ Chemoselective Nitration of Aromatic Sulfonamides with tert-Butyl Nitrite Chemical Communications, doi:10.1039/C2CC37481A
  5. ^ Cupferron Organic Syntheses, Coll. Vol. 1, p.177 (1941); Vol. 4, p.19 (1925) Link
  6. ^ 2-Pyrrolidinemethanol, α,α-diphenyl-, (±)- Organic Syntheses, Coll. Vol. 6, p.542 (1988); Vol. 58, p.113 (1978) Link
  7. ^ Dimethylglyoxime Organic Syntheses, Coll. Vol. 2, p.204 (1943); Vol. 10, p.22 (1930) Link
  8. ^ Glyoxylyl chloride, phenyl-, oxime Organic Syntheses, Coll. Vol. 3, p.191 (1955); Vol. 24, p.25 (1944) Link
  9. ^ Itoh Masumi; Hagiwara Daijiro; Kamiya Takashi (1979). "A New Reagent for tert‑Butoxy­carbonylation: 2‑tert‑Butoxy­carbonyl­oxy­imino-2‑phenyl­acetonitrile". Organic Syntheses. 59: 95. doi:10.15227/orgsyn.059.0095; Collected Volumes, vol. 6, p. 199.
  10. ^ The Total Synthesis of Quinine R. B. Woodward and W. E. Doering J. Am. Chem. Soc.; 1945; 67(5) pp 860 - 874; doi:10.1021/ja01221a051
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