Aniline

Aniline, phenylamine or aminobenzene is an organic compound with the formula C₆H₅N H₂. It is the simplest and one of the most imporant aromatic amines, being used as a precursor to more complex chemicals. Its main application is in the manufacture of polyurethane. Like most volatile amines, it possesses a somewhat unpleasant odour of rotten fish and also has a burning aromatic taste; it is a highly poison. It ignites readily, burning with a smoky flame.

Structure and synthesis

Consisting of a phenyl group attached to an amino group, aniline is usually produced industrially in two steps from benzene:

First, benzene is nitrated using a mixture of concentrated mixture of nitric acid and sulfuric acid at 50 - 60 Â°C, which gives nitrobenzene. In the second step, the nitrobenzene is hydrogenated, typically at 600 Â°C in presence of a nickel catalyst to give aniline. Alternatively, aniline is also prepared from phenol and ammonia, the phenol being derived from cumene. ^[1]

Derivatives

Many derivatives of aniline can be prepared similarly. In commerce three brands of aniline are distinguished—aniline oil for blue, which is pure aniline; aniline oil for red, a mixture of equimolecular quantities of aniline and ortho- and para-toluidines; and aniline oil for safranine, which contains aniline and ortho-toluidine, and is obtained from the distillate (Ã©chappÃ©s) of the fuchsine fusion.

Properties

Oxidation

Aniline is colourless, it slowly oxidizes and resinifies in air, giving a red-brown tint to aged samples. The oxidation of aniline has been carefully investigated. In alkaline solution azobenzene results, while arsenic acid produces the violet-colouring matter violaniline. Chromic acid converts it into quinone, while chlorates, in the presence of certain metallic salts (especially of vanadium), give aniline black. Hydrochloric acid and potassium chlorate give chloranil. Potassium permanganate in neutral solution oxidizes it to nitrobenzene, in alkaline solution to azobenzene, ammonia and oxalic acid, in acid solution to aniline black. Hypochlorous acid gives 4-aminophenol and para-amino diphenylamine.

Basicity

Aniline is a weak base. Aromatic amines such as aniline are generally much weaker bases than aliphatic amines. Aniline reacts with strong acids to form anilinium (or phenylammonium) ion (C₆H₅-NH₃⁺). The sulfate forms beautiful white plates. Although aniline is weakly basic, it precipitates zinc, aluminium and ferric salts, and on warming expels ammonia from its salts.

Acylation

Aniline reacts with carboxylic acids^[2] or more readily with acyl chlorides such as acetyl chloride to give amides. The amides formed from aniline are sometimes called "anilides", for example CH₃-CO-NH-C₆H₅ is acetanilide. Antifebrin or acetanilide is obtained from acetic acid and aniline.

N-alkyl derivatives

Aniline combines directly with alkyl iodides to form secondary and tertiary amines. Monomethyl and dimethyl aniline are colourless liquids prepared by heating aniline, aniline hydro-chloride and methyl alcohol in an autoclave at 220 Â°C. They are of great importance in the colour industry. Monomethyl aniline boils at 193-195 Â°C, dimethyl aniline at 192 Â°C.

Sulfur derivatives

Boiled with carbon disulfide, it gives sulfocarbanilide (diphenyl thiourea), CS(NHC₆H₅)₂, which may be decomposed into phenyl isothiocyanate, C₆H₅CNS, and triphenyl guanidine, C₆H₅N=C(NHC₆H₅)₂.

Like phenols, aniline derivatives are highly susceptible to electrophilic substitution reactions. For example, sulfonation of aniline produces sulfanilic acid, which can be converted to sulfanilamide. Sulfanilamide is one of the sulfa drugs which were widely used as antibacterials in the early 20th century. Reaction with sulfuric acid at 180°C produces sulfanilic acid, NH₂C₆H₄SO₃H.

Diazotization

Aniline and its ring-substituted derivatives react with nitrous acid to form diazonium salts. Through these, the -NH₂ group of aniline can be conveniently converted to -OH, -CN, or a halide via Sandmeyer reactions.

Other reactions

It reacts with nitrobenzene to produce phenazine in the Wohl-Aue reaction.

Uses

Originally the great commercial value of aniline was due to the readiness with which it yields, directly or indirectly, dyestuffs. The discovery of mauve in 1856 by William Henry Perkin was the first of a series of dyestuffs which are now to be numbered by hundreds. Reference should be made to the articles dyeing, fuchsine, safranine, indulines, for more details on this subject. In addition to its use as a precursor to dyestuffs, it is a starting-product for the manufacture of many drugs such as paracetamol (acetaminophen, Tylenol).

It is used to stain neural RNA blue in the Nissl stain.

Currently the largest market for aniline is preparation of methylene diphenyl diisocyanate (MDI), some 85% of aniline serving this market. Other uses include rubber processing chemicals (9%), herbicides (2%), and dyes and pigments (2%).^[3]

History

Aniline was first isolated from the destructive distillation of indigo in 1826 by Otto Unverdorben (Pogg. Ann., 1826, 8, p. 397), who named it crystalline. In 1834, Friedrich Runge (Pogg. Ann., 1834, 31, p. 65; 32, p. 331) isolated from coal tar a substance which produced a beautiful blue colour on treatment with chloride of lime; this he named kyanol or cyanol. In 1841, C. J. Fritzsche showed that by treating indigo with caustic potash it yielded an oil, which he named aniline, from the specific name of one of the indigo-yielding plants, Indigofera anil, anil being derived from the Sanskrit nīla, dark-blue, and nīlā, the indigo plant. About the same time N. N. Zinin found that on reducing nitrobenzene, a base was formed which he named benzidam. August Wilhelm von Hofmann investigated these variously prepared substances, and proved them to be identical (1855), and thenceforth they took their place as one body, under the name aniline or phenylamine.

Its first industrial-scale use was in the manufacture of mauveine, a purple dye discovered in 1856 by Hofmann's student William Henry Perkin. At the time of mauveine's discovery, aniline was an expensive laboratory compound, but it was soon prepared "by the ton" using a process previously discovered by Antoine BÃ©champ.^[4] The synthetic dye industry grew rapidly as new aniline-based dyes were discovered in the late 1850s and 1860s.

p-Toluidine, an aniline derivative, can be used in qualitative analysis to prepare carboxylic acid derivatives.

Toxicology

Aniline is toxic by inhalation of the vapour, absorption through the skin or swallowing. It causes headache, drowsiness, cyanosis, mental confusion and in severe cases can cause convulsions. Prolonged exposure to the vapour or slight skin exposure over a period of time affects the nervous system and the blood, causing tiredness, loss of appetite, headache and dizziness.^[5]

Oil mixtures containing rapeseed oil denatured with aniline have been clearly linked by epidemiological and analytic chemical studies to the toxic oil syndrome that hit Spain in the spring and summer of 1981, in which 20,000 became acutely ill, 12,000 were hospitalized, and more than 350 died in the first year of the epidemic. The precise etiology though remains unknown.

Some authorities class aniline as a carcinogen, although the IARC lists it in Group 3 (not classifiable as to its carcinogenicity to humans) due to the limited and contradictory data available.

References

1. ^ Thomas Kahl, Kai-Wilfrid SchrÃ¶der, "Aniline" in Ullmann's Encyclopedia of Industrial Chemistry 2007; John Wiley & Sons: New York.
2. ^ Carl N. Webb "Benzanilid" Organic Syntheses, Collected Volume 1, p.82 (1941). [1]
3. ^ Aniline producers price capacity market demand consumption production growth uses outlook n.d., The Chemical Market Reporter, Schnell Publishing Company. Retrieved January 12, 2002 from [2]
4. ^ Perkin, William Henry. 1861-06-08. "Proceedings of Checmical Societies: Chemical Society, Thursday, May 16, 1861." The Chemical News and Journal of Industrial Science. Retrieved on 2007-09-24.
5. ^ Muir, GD (ed.) 1971, Hazards in the Chemical Laboratory, The Royal Institute of Chemistry, London.

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Molar mass, symbol M,^[1] is the mass of one mole of a substance (chemical element or chemical compound).^[2] It is a physical property which is characteristic of each pure substance.
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The poise (symbol P; IPA: /pwɑːz/) is the unit of dynamic viscosity in the centimetre gram second system of units. It is named after Jean Louis Marie Poiseuille.
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An aromatic amine is an amine with an aromatic substituent - that is -NH₂, -NH- or nitrogen group(s) attached to an aromatic hydrocarbon, whose structure usually contains one or more benzene rings. Aniline is an example.
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1-Naphthylamine is an aromatic amine. It can be prepared by reducing 1-nitronaphthalene with iron and hydrochloric acid at about 70 Â°C, the reaction mixture being neutralized with milk of lime, and the naphthylamine steam-distilled.
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2-Naphthylamine is an aromatic amine. It is used to make azo dyes. It is a known human carcinogen and has largely been replaced by less toxic compounds. 2-Naphthylamine is prepared by heating 2-naphthol with ammonium zinc chloride to 200-210 Â°C; or in the form of its acetyl
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Phenylhydrazine is the chemical compound with the formula C₆H₅NHNH₂. Organic chemists abbreviate the compound PhNHNH₂.

Chemical properties

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Nitrosobenzene is the organic compound C₆H₅NO. The compound can be viewed as hybrid of singlet O₂ and azobenzene. This diamagnetic species exists in equilibrium with its dimer.
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Nitrobenzene, also known as nitrobenzol or oil of mirbane, is a poisonous organic compound with an almond odor and chemical formula C₆H₅NO₂.
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P in mm Hg 1 10 40 100 400 760 1520 3800 7600 15600 30400 45600
T in Â°C 34.8 69.4 96.7 119.9 161.9 184.4 212.8 254.8 292.7 342.0 400.0 â€” Table data obtained from CRC Handbook of Chemistry and Physics 44th ed.
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