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Sulfanilic acid

From Wikipedia, the free encyclopedia

Sulfanilic acid
Skeletal formula of sulfanilic acid
Ball-and-stick model of the sulfanilic acid zwittrion
Names
Preferred IUPAC name
4-Aminobenzene-1-sulfonic acid[1]
Other names
4-Aminobenzenesulfonic acid
p-Aminobenzenesulfonic acid
Sulfanilic acid (not retained[1])
Identifiers
3D model (JSmol)
ChEBI
ECHA InfoCard 100.004.075 Edit this at Wikidata
UNII
  • InChI=1/C6H7NO3S/c7-5-
    1-3-6(4-2-5)11(8,9)10/h1-4H,
    7H2,(H,8,9,10)/f/h8H
  • OS(=O)(=O)c1ccc(N)cc1
Properties
C6H7NO3S
Molar mass 173.19
Density 1.485
Melting point 288 °C (550 °F; 561 K)
12.51 g/L
Acidity (pKa) 3.23 (H2O)[2]
Related compounds
Related sulfonic acids
 Benzenesulfonic acid
p-Toluenesulfonic acid
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Sulfanilic acid (4-aminobenzenesulfonic acid) is an organic compound with the formula H3NC6H4SO3. It is an off-white solid. It is a zwitterion, which explains its high melting point. It is a common building block in organic chemistry.[3]

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Transcription

Synthesis

Sulfanilic acid can be produced by sulfonation of aniline with concentrated sulfuric acid.[4] This proceeds via phenylsulfamic acid; a zwitterion with a N-S bond. Eugen Bamberger originally proposed a mechanism involving a series of intramolecular rearrangements, with phenylsulfamic acid forming orthanilic acid, which rearranged to sulfanilic acid on heating.[5][6] Subsequent radiosulphur studies showed that the process is intermolecular, with the phenylsulfamic acid desulfating to generate sulfur trioxide, which then reacts with aniline at the para position in manner similar to a Bamberger rearrangement.[7][8]

Applications

As the compound readily forms diazo compounds, it is used to make dyes and sulfa drugs.[3] This property is also used for the quantitative analysis of nitrate and nitrite ions by diazonium coupling reaction with N-(1-Naphthyl)ethylenediamine, resulting in an azo dye, and the concentration of nitrate or nitrite ions were deduced from the color intensity of the resulting red solution by colorimetry.[9]

It is also used as a standard in combustion analysis and in the Pauly reaction.

Environmental aspects

Reflecting its wide use, sulfanilic acid is found in the leachates of landfills.[10] It is produced by reduction of some azo dyes.[11]

Derivatives

See also

References

  1. ^ a b Favre, Henri A.; Powell, Warren H., eds. (2014). Nomenclature of Organic Chemistry : IUPAC Recommendations and Preferred Names 2013 (Blue Book). Cambridge: Royal Society of Chemistry. p. 789. doi:10.1039/9781849733069-FP001. ISBN 9780854041824. OCLC 1077224056. The name 'sulfanilic acid' is not retained.
  2. ^ Haynes, William M., ed. (2016). CRC Handbook of Chemistry and Physics (97th ed.). CRC Press. p. 5–88. ISBN 978-1498754286.
  3. ^ a b "Sulphanilic acid". A Dictionary of Chemistry. Oxford University Press, 2000. Oxford Reference Online. Oxford University Press.
  4. ^ Siegfried Hauptmann: Organische Chemie, 2nd Edition, VEB Deutscher Verlag für Grundstoffindustrie, Leipzig, 1985, p. 511, ISBN 3-342-00280-8.
  5. ^ Bamberger, Eug.; Kunz, Jac. (May 1897). "Umlagerung von Sulfonsäuren. (II.)". Berichte der Deutschen Chemischen Gesellschaft. 30 (2): 2274–2277. doi:10.1002/cber.189703002211.
  6. ^ Illuminati, Gabriello (June 1956). "A Reinvestigation of the Role of Phenylsulfamic Acid in the Formation of Aminobenzenesulfonic Acids". Journal of the American Chemical Society. 78 (11): 2603–2606. doi:10.1021/ja01592a075.
  7. ^ Spillane, W.J.; Scott, F.L. (January 1967). "Radiosulphur studies on the rearrangement of phenylsulphamic acid to sulphanilic acid". Tetrahedron Letters. 8 (14): 1251–1253. doi:10.1016/S0040-4039(00)90678-6.
  8. ^ Scott, F.L.; Spillane, W.J. (January 1967). "The isomerization of orthanilic acid to sulphanilic acid in the presence of sulphuric acid-S35". Tetrahedron Letters. 8 (28): 2707–2711. doi:10.1016/S0040-4039(01)89979-2.
  9. ^ G. H. Jerffery; J. Bassett; J. Mendham; R. C. Denney (1989). "Colorimetry and Spectrophotometry". Vogel's Textbook of Quantitative Chemical Analysis, 5th Edition. Longman. p. 702. ISBN 0-582-44693-7.
  10. ^ Holm, John V.; Ruegge, Kirsten.; Bjerg, Poul L.; Christensen, Thomas H. (1995). "Occurrence and Distribution of Pharmaceutical Organic Compounds in the Groundwater Downgradient of a Landfill (Grindsted, Denmark)". Environmental Science & Technology. 29 (5): 1415–1420. Bibcode:1995EnST...29.1415H. doi:10.1021/es00005a039. PMID 22192041. S2CID 2994687.
  11. ^ Nam, S. (2000). "Reduction of azo dyes with zero-valent iron". Water Research. 34 (6): 1837–1845. Bibcode:2000WatRe..34.1837N. doi:10.1016/S0043-1354(99)00331-0.
  12. ^ Klaus Hunger; Peter Mischke; Wolfgang Rieper; Roderich Raue; Klaus Kunde; Aloys Engel (2005). "Azo Dyes". Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH. doi:10.1002/14356007.a03_245. ISBN 978-3527306732..
This page was last edited on 14 March 2024, at 12:18
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