Picric acid

Picric acid
Picric acid
Identifiers
CAS number 88-89-1 YesY
PubChem 6954
ChemSpider 6688 YesY
UNII A49OS0F91S YesY
DrugBank DB03651
ChEBI CHEBI:46149 YesY
ChEMBL CHEMBL108541 YesY
RTECS number TJ7875000
Jmol-3D images Image 1
Properties
Molecular formula C6H3N3O7
Molar mass 229.10 g·mol−1
Appearance Colorless to yellow solid
Density 1.763 g·cm−3, solid
Melting point

122.5 °C

Boiling point

> 300 °C (Explodes)

Solubility in water 14.0 g·L−1
Acidity (pKa) 0.38
Hazards
EU classification Explosive (E), Toxic (T)
R-phrases R1 R4 R11 R23 R24 R25
S-phrases S28 S35 S37 S45
NFPA 704
NFPA 704.svg
3
3
4
Explosive data
Explosive velocity 7,350 m·s−1 at ρ 1.70
 YesY acid (verify) (what is: YesY/N?)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Picric acid is the chemical compound formally called 2,4,6-trinitrophenol (TNP). This yellow crystalline solid is one of the most acidic phenols. Like other highly nitrated compounds such as TNT, picric acid is an explosive. Its name comes from Greek πικρος (pik' ros), meaning "bitter", reflecting the bitter taste of picric acid.

Contents

History

Picric acid was probably first mentioned in the alchemical writings of Johann Rudolf Glauber in 1742. Initially, it was made by nitrating substances such as animal horn, silk, indigo, and natural resin, the synthesis from indigo first being performed by Peter Woulfe in 1779. Its synthesis from phenol, and the correct determination of its formula, were successfully accomplished in 1841. Not until 1830 did chemists think to use picric acid as an explosive. Before then, chemists assumed that only the salts of picric acid were explosive, not the acid itself. In 1873 Hermann Sprengel proved it could be detonated and by 1894 the Russian workers had worked out a method of manufacture for artillery shells. Soon after, most military powers used picric acid as their primary high explosive material. However, shells filled with picric acid become highly unstable as the compound corrodes bomb casings to form metal picrates which are more sensitive than the parent phenol. The sensitivity of picric acid was demonstrated in the Halifax Explosion. Picric acid was used in the Second Boer War[1] and World War I,[2] but the 20th century saw picric acid largely replaced by TNT and RDX. Picric acid is also used in the analytical chemistry of metals, ores, and minerals.

In 1885, based on research of Hermann Sprengel, French chemist Eugène Turpin patented the use of pressed and cast picric acid in blasting charges and artillery shells. In 1887 the French government adopted it under the name melinite, with addition of gun cotton. Since 1888, Britain started manufacturing a very similar mixture in Lydd, Kent, under the name lyddite. Japan followed with an "improved" formula known as schimose. In 1889, a similar material, a mixture of ammonium cresylate with trinitrocresol, or an ammonium salt of trinitrocresol, started to be manufactured under the name ecrasite.

Synthesis

The aromatic ring of phenol is highly activated towards electrophilic substitution reactions, and attempted nitration of phenol, even with dilute nitric acid, results in the formation of high molecular weight tars. In order to minimize these side reactions, anhydrous phenol is sulfonated with fuming sulfuric acid, and the resulting p-phenolsulfonic acid is then nitrated with concentrated nitric acid. During this reaction, nitro groups are introduced, and the sulfonic acid group is displaced. The reaction is highly exothermic, and careful temperature control is required. Picric acid has a characteristic acrid odor.

Uses

By far the largest use has been in munitions and explosives.

It has found some use in organic chemistry for the preparation of crystalline salts of organic bases (picrates) for the purpose of identification and characterization.

In metallurgy a picric acid etch has been commonly used in optical metallography to reveal prior austenite grain boundaries in ferritic steels. The hazards associated with picric acid has meant it has largely been replaced with other chemical etchants.

Bouin solution is a common picric acid-containing fixative solution used for histology specimens.[3]

Workplace drug testing utilizes picric acid for the Jaffe Reaction to test for creatinine. It forms a colored complex that can be measured using spectroscopy.[4]

Much less commonly, wet picric acid has been used as a skin dye or temporary branding agent. It reacts with proteins in the skin to give a dark brown color that may last as long as a month.

In the early 20th century, picric acid was stocked in pharmacies as an antiseptic and as a treatment for burns, malaria, herpes, and smallpox. It was most notably used for the treatment of burns suffered by victims of the Hindenburg disaster in 1937.

Picric acid emits a high-pitched whine during combustion in air and this has led to its widespread use in fireworks.

Picric acid has been used for many years by fly tyers to dye moleskins, feathers, etc… dark olive green. Its popularity has been tempered by its toxic nature.

Safety

Modern safety precautions recommend storing picric acid wet. Dry picric acid is relatively sensitive to shock and friction, so laboratories that use it store it in bottles under a layer of water, rendering it safe. Glass or plastic bottles are required, as picric acid can easily form metal picrate salts that are even more sensitive and hazardous than the acid itself. Industrially, picric acid is especially hazardous because it is volatile and slowly sublimes even at room temperature. Over time, the buildup of picrates on exposed metal surfaces can constitute a grave hazard.[5]

Bomb disposal units are often called to dispose of picric acid if it has dried out.[6] [7] [8] [9] [10] [11]

References

  1. ^ John Philip Wisser (1901). The second Boer War, 1899-1900. Hudson-Kimberly. pp. 243. http://www.archive.org/stream/secondboerwar18900wissrich#page/243/mode/1up. Retrieved 2009-07-22. 
  2. ^ Marc Ferro. The Great War. London and New York: Routeladge Classics, p. 98.
  3. ^ Carson, Freida L.; Hladik, Christa (2009). Histotechnology: A Self-Instructional Text (3 ed.). Hong Kong: American Society for Clinical Pathology Press. p. 19. ISBN 9780891895817. 
  4. ^ Creatinine Direct Procedure, on CimaScientific
  5. ^ JT Baker MSDS
  6. ^ "Bomb squad called to Dublin lab". irishtimes.com. Irish Times. 1 October 2010. http://www.irishtimes.com/newspaper/breaking/2010/1001/breaking49.html. Retrieved 22 July 2011. 
  7. ^ "Unstable chemicals made safe by army". rte.ie. RTÉ New. 3 November 2010. http://www.rte.ie/news/2010/1103/teagasc.html. Retrieved 22 July 2011. 
  8. ^ "Army bomb disposal team make Kerry scene safe". irishexaminer.com. Irish Examiner. 22 November 2010. http://www.irishexaminer.com/breakingnews/ireland/army-bomb-disposal-team-make-kerry-scene-safe-482831.html. Retrieved 22 July 2011. 
  9. ^ "Dangerous chemicals made safe". irishtimes.com. Irish Times. 23 November 2010. http://www.irishtimes.com/newspaper/breaking/2010/1123/breaking57.html. Retrieved 22 July 2011. 
  10. ^ "Unstable chemicals made safe". irishtimes.com. Irish Times. 31 May 2011. http://www.irishtimes.com/newspaper/breaking/2011/0531/breaking38.html. Retrieved 22 July 2011. 
  11. ^ "Chemicals Blown Up At Transfer Station". kcra.com. KCRA. 6 January 2011. http://www.kcra.com/r/26394685/detail.html. Retrieved 22 July 2011. 

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Look at other dictionaries:

  • picric acid — [pik′rik] n. [Fr picrique: see PICRO & IC] a poisonous, yellow, crystalline, bitter acid, C6H2 (NO2) 3OH, used in making dyes and explosives and in analytical chemistry …   English World dictionary

  • picric acid — Chem. a yellow, crystalline, water soluble, intensely bitter, poisonous acid, C6H3N3O7, used chiefly in explosives. Also called carbazotic acid, nitroxanthic acid, picronitric acid /puy kroh nuy trik, puy kroh /, trinitrophenol. [1850 55] * * * ▪ …   Universalium

  • picric acid — Nitrophnol Ni tro*ph nol, n. [Nitro + phenol.] (Chem.) Any one of a series of nitro derivatives of phenol. They are yellow oily or crystalline substances and have well defined acid properties, as {picric acid}. [1913 Webster] …   The Collaborative International Dictionary of English

  • picric acid — pikro rūgštis statusas T sritis chemija formulė C₆H₂(OH)(NO₂)₃ atitikmenys: angl. picric acid rus. пикриновая кислота ryšiai: sinonimas – 2,4,6 trinitrofenolis …   Chemijos terminų aiškinamasis žodynas

  • picric acid jaundice — jaundice due to picric acid poisoning, usually an occupational illness …   Medical dictionary

  • picric acid — Has been used as an application in burns, eczema, erysipelas, and pruritus. SYN: carbazotic acid, nitroxanthic acid. [G. pikros, bitter] * * * pic·ric acid .pik rik n a bitter toxic explosive yellow crystalline strong acid C6H3N3O7 used esp. as a …   Medical dictionary

  • picric acid — [ pɪkrɪk] noun Chemistry a bitter yellow compound obtained by nitrating phenol, used as a dye and in the manufacture of explosives. Origin C19: picric from Gk pikros bitter + ic …   English new terms dictionary

  • picric acid — noun 2,4,6 trinitrophenol, CH(NO), prepared by the nitration of phenol or of aspirin; a toxic, yellow, explosive substance used in dyes, explosives, and as an antiseptic …   Wiktionary

  • picric acid — pic′ric ac′id [[t]ˈpɪk rɪk[/t]] n. chem. a yellow, crystalline, water soluble, intensely bitter, poisonous acid, C6H3N3O7, used chiefly in explosives • Etymology: 1850–55; < Gk pikr(ós) bitter + ic …   From formal English to slang

  • picric acid — /pɪkrɪk ˈæsəd/ (say pikrik asuhd) noun an intensely bitter yellow acid, 2,4,6 trinitrophenol, C6H2OH(NO2)3, used as a dye and an explosive. {Greek pikros bitter + ic} …  

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