Open Access Articles- Top Results for Nitro compound

Nitro compound

The structure of the nitro group

Nitro compounds are organic compounds that contain one or more nitro functional groups (–NO2). They are often highly explosive, especially when the compound contains more than one nitro group and is impure. The nitro group is one of the most common explosophores (functional group that makes a compound explosive) used globally. This property of both nitro and nitrate groups is because their thermal decomposition yields molecular nitrogen N2 gas plus considerable energy, due to the high strength of the bond in molecular nitrogen.

Aromatic nitro compounds are typically synthesized by the action of a mixture of nitric and sulfuric acids on an organic molecule. The one produced on the largest scale, by far, is nitrobenzene. Many explosives are produced by nitration including trinitrophenol (picric acid), trinitrotoluene (TNT), and trinitroresorcinol (styphnic acid).[1]

Occurrence in nature

Chloramphenicol is a rare example of a naturally occurring nitro compound. At least some naturally occurring nitro groups arise by the oxidation of amino groups.[2] 2-Nitrophenol is an aggregation pheromone of ticks.

Examples of nitro compounds are rare in nature. 3-Nitropropionic acid found in fungi and plants (Indigofera). Nitropentadecene is a defense compound found in termites. Nitrophenylethane is found in Aniba canelilla.[3] Nitrophenylethane is also found in members of the Annonaceae, Lauraceae and Papaveraceae.[4]

Many flavin-dependent enzymes are capable of oxidizing aliphatic nitro compounds to less-toxic aldehydes and ketones. Nitroalkane oxidase and 3-nitropropionate oxidase oxidize aliphatic nitro compounds exclusively, whereas other enzymes such as glucose oxidase have other physiological substrates.[5]


In organic synthesis various methods exists to prepare nitro compounds.

Aliphatic nitro compounds

Aliphatic nitro compounds can be synthesized by various methods, notable examples include:

Aromatic nitro compounds

In a classic electrophilic substitution reaction, nitric acid and sulfuric acid produce the nitronium ion, which reacts with aromatic compounds in aromatic nitration. Another method, starting from halogenated phenols, is the Zinke nitration.


Nitro compounds participate in several organic reactions, the most important being their reduction to the corresponding amines:

RNO2 + 3 H2 → RNH2 + 2 H2O

Virtually all aromatic amines (anilines) are derived from nitroaromatics.

Aliphatic nitro compounds

The ter Meer reaction
In one study, a reaction mechanism is proposed in which in the first slow step a proton is abstracted from nitroalkane 1 to a carbanion 2 followed by protonation to a nitronate 3 and finally nucleophilic displacement of chlorine based on an experimentally observed hydrogen kinetic isotope effect of 3.3.[15] When the same reactant is reacted with potassium hydroxide the reaction product is the 1,2-dinitro dimer[16]

Aromatic nitro compounds

Nitro compound hydrogenation

See also


  1. ^ Gerald Booth "Nitro Compounds, Aromatic" Ullmann's Encyclopedia of Industrial Chemistry, 2005, Wiley-VCH, Weinheim. doi:10.1002/14356007.a17_411
  2. ^ Georg Zocher, Robert Winkler, Christian Hertweck, Georg E. Schulz "Structure and Action of the N-oxygenase AurF from Streptomyces thioluteus" J. Molecular Biology (2007) 373, 65–74. doi:10.1016/j.jmb.2007.06.014
  3. ^ José Guilherme S. Maia, Eloísa Helena A. Andrade "Database of the Amazon aromatic plants and their essential oils " Quim. Nova, (2009) 32(3), 595-622, 2009 {}
  4. ^ Klaus Kubitzki, Jens G. Rohwer, Volker Bittrich "Flowering Plants · Dicotyledons: Magnoliid, Hamamelid and Caryophyllid Families" 1993,Springer-Verlag, Berlin
  5. ^ Nagpal, Akanksha; Michael P. Valley; Paul F. Fitzpatrick; Allen M. Orville (1/5/2006). "Crystal Structures of Nitroalkane Oxidase: Insights into the Reaction Mechanism from a Covalent Complex of the Flavoenzyme Trapped during Turnover". Biochemistry 45 (4): 1138–50. PMC 1855086. PMID 16430210. doi:10.1021/bi051966w.  Check date values in: |date= (help)
  6. ^ Markofsky, Sheldon; Grace, W.G. (2000). "Nitro Compounds, Aliphatic". Ullmann's Encyclopedia of Industrial Chemistry. doi:10.1002/14356007.a17_401. 
  7. ^ Kornblum, N.; Ungnade, H. E. (1963). "1-Nitroöctane". Organic Syntheses 4: 724. doi:10.15227/orgsyn.038.0075. 
  8. ^ Walden, P. (1907). "Zur Darstellung aliphatischer Sulfocyanide, Cyanide und Nitrokörper". Berichte der deutschen chemischen Gesellschaft 40 (3): 3214–3217. doi:10.1002/cber.19070400383. 
  9. ^ Whitmore, F. C.; Whitmore, Marion G. (1923). "Nitromethane". Organic Syntheses 1: 401. doi:10.15227/orgsyn.003.0083. 
  10. ^ Olah, George A.; Ramaiah, Pichika; Chang-Soo, Lee; Prakash, Surya (1992). "Convenient Oxidation of Oximes to Nitro Compounds with Sodium Perborate in Glacial Acetic Acid". Synlett 4: 337–339. doi:10.1055/s-1992-22006. 
  11. ^ Ehud, Keinan; Yehuda, Mazur (1977). "Dry ozonation of amines. Conversion of primary amines to nitro compounds". The Journal of Organic Chemistry 42 (5): 844–847. doi:10.1021/jo00425a017. 
  12. ^ Ranganathan, Darshan; Rao, Bhushan; Ranganathan, Subramania; Mehrotra, Ashok; and Iyengar, Radha (1980). "Nitroethylene: a stable, clean, and reactive agent for organic synthesis". The Journal of Organic Chemistry 45 (7): 1185–1189. doi:10.1021/jo01295a003. Retrieved 5 January 2014. 
  13. ^ Jubert, Carole and Knochel, Paul (1992). "Preparation of polyfunctional nitro olefins and nitroalkanes using the copper-zinc reagents RCu(CN)ZnI". The Journal of Organic Chemistry 57 (20): 5431–5438. doi:10.1021/jo00046a027. Retrieved 5 January 2014. 
  14. ^ Edmund ter Meer (1876). "Ueber Dinitroverbindungen der Fettreihe". Justus Liebigs Annalen der Chemie 181 (1): 1–22. doi:10.1002/jlac.18761810102. 
  15. ^ aci-Nitroalkanes. I. The Mechanism of the ter Meer Reaction M. Frederick Hawthorne J. Am. Chem. Soc.; 1956; 78(19) pp 4980 – 4984; doi:10.1021/ja01600a048
  16. ^ 3-Hexene, 3,4-dinitro- D. E. Bisgrove, J. F. Brown, Jr., and L. B. Clapp. Organic Syntheses, Coll. Vol. 4, p.372 (1963); Vol. 37, p.23 (1957). (Article)
  17. ^ Organic Syntheses, Coll. Vol. 5, p.552 (1973); Vol. 47, p.69 (1967).

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