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Pyridine
IUPAC name	Pyridine
Other names	Azabenzene Azine py
Identifiers
CAS number	[110-86-1&c=0&v= [110-86-1]]
SMILES	C1=NC=CC=C1
Properties
Molecular formula	C5H5N
Appearance	colourless liquid
Density	0.9819 g/cm³, liquid
Melting point	−41.6 °C
Boiling point	115.2 °C
Solubility in water	Miscible
Viscosity	0.94 cP at 20 °C
Hazards
MSDS	External MSDS
EU classification	Flammable (F) Harmful (Xn)
NFPA 704	3 2 0
Flash point	21 °C
Related Compounds
Related amines	Picoline Quinoline
Related compounds	Aniline Pyrimidine
Supplementary data page
Structure and properties	n, εr, etc.
Thermodynamic data	Phase behaviour Solid, liquid, gas
Spectral data	UV, IR, NMR, MS
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa) Infobox disclaimer and references

Pyridine is a chemical compound with the formula C₅H₅N. It is a liquid with a distinctively putrid, fishy odour. Pyridine is a simple and fundamentally important heterocyclic aromatic organic compound that is structurally related to benzene, wherein one CH group in the six-membered ring is replaced by a nitrogen atom. The pyridine ring occurs in many important compounds, including the nicotinamides. Pyridine is sometimes used as a ligand in coordination chemistry. As a ligand, it is usually abbreviated py.

Contents 1 Basicity 2 Pyridine as a solvent 3 Role in chemical synthesis 4 Preparation and occurrence 5 Organic reactions 6 Safety and Environmental 7 Related compounds 8 See also 9 References 10 External links

Pyridine has a lone pair of electrons at the nitrogen atom. Because this lone pair is not delocalized into the aromatic pi-system, pyridine is basic with chemical properties similar to tertiary amines. The pKa of the conjugate acid is 5.21. Pyridine is protonated by reaction with acids and forms a positively charged aromatic polyatomic ion called pyridinium cation. The bond lengths and bond angles in pyridine and the pyridinium ion are almost identical^[1] because protonation does not affect the aromatic pi system.

Pyridine is widely used as a versatile solvent, since it is polar but aprotic. It is fully miscible with a very broad range of solvents including hexane and water. Deuterated pyridine, called pyridine-d₅, is a common solvent for¹H NMR spectroscopy.

Pyridine is important in industrial organic chemistry, both as a fundamental building block and as a solvent and reagent in organic synthesis.^[2] It is used as a solvent in Knoevenagel condensations.

Pyridine-borane, C₅H₅NBH₃ (m.p. 10–11 °C) is a mild reducing agent with improved stability vs NaBH₄ in protic solvents and improved solubility in aprotic organic solvents. Pyridine-sulfur trioxide, C₅H₅NSO₃ (mp 175 °C) is a sulfonation agent used to convert alcohols to sulfonates, which in turn undergo C-O bond scission upon reduction with hydride agents.

It is also a starting material in the synthesis of compounds used as an intermediate in making insecticides, herbicides, pharmaceuticals, food flavorings, dyes, rubber chemicals, adhesives, paints, explosives and disinfectants. Pyridine is also used as a denaturant for antifreeze mixtures, for ethyl alcohol, for fungicides, and as a dyeing aid for textiles.

Many methods exist in industry and in the laboratory (some of them named reactions) for the synthesis of pyridine and its derivatives:^[3] Pyridine was originally isolated industrially from crude coal tar. It is currently synthesized from acetaldehyde, formaldehyde and ammonia, a process that involves the intermediacy of acrolein:

CH₂O + NH₃ + 2 CH₃CHO → C₅H₅N + 3 H₂O

By substituting other aldehydes for acetaldehyde, one obtains alkyl and aryl substituted pyridines. 26,000 tons were produced worldwide in 1989.^[4]

• The Hantzsch pyridine synthesis is a multicomponent reaction involving formaldehyde, a keto-ester and a nitrogen donor.
• Other examples of the pyridine class can be formed by the reaction of 1,5-diketones with ammonium acetate in acetic acid followed by oxidation. This reaction is called the "Kröhnke pyridine synthesis."
• Pyridium salts can be obtained in the Zincke reaction.
• The "Ciamician-Dennstedt Rearrangement" (1881) is the ring-expansion of pyrrole with dichlorocarbene to 3-chloropyridine and HCl^[5]
• In the "Chichibabin pyridine synthesis" (Aleksei Chichibabin, 1906) the reactants are three equivalents of a linear aldehyde and ammonia

In organic reactions pyridine behaves both as a tertiary amine with protonation, alkylation, acylation and N-oxidation at nitrogen and as an aromatic compound with Nucleophilic substitutions.

• Pyridine is a good nucleophile with a donor number of 33.1. It is easily attacked by alkylating agents to give N-alkylpyridinium salts.
• Nucleophilic aromatic substitution takes place at C2 and C4 for example in the Chichibabin reaction of pyridine with sodium amide to 2-aminopyridine. In the Emmert reaction (B. Emmert, 1939) pyridine is reacted with a ketone in presence of aluminium or magnesium and mercuric chloride to the carbinol also at C2^[6].

Pyridine is toxic with LD₅₀ in rats (oral) of 891 mg kg^–1. It is volatile and can be absorbed through skin. Available data indicate that "exposure to pyridine in drinking-water led to reduction of sperm motility at all dose levels in mice and increased estrous cycle length at the highest dose level in rats".^[7] Currently its evaluations as a possible carcinogenic agent showed there is inadequate evidence in humans for the carcinogenicity of pyridine, albeit there is limited evidence of carcinogenic effects on animals.^[7] Effects of an acute pyridine intoxication include dizziness, headache, nausea and anorexia. Further symptoms include abdominal pain and pulmonary congestion.^[7] Though resistant to oxidation, pyridine is readily degraded by bacteria, releasing ammonium and carbon dioxide as terminal degradation products.^[8]

Structurally or chemically related compounds are

• DMAP is short for 4-dimethylaminopyridine
• Bipyridine and viologen are simple polypyridine compounds consisting of two pyridine molecules joined by a single bond
• Terpyridine, a molecule of three pyridine rings connected together by two single bonds.
• Quinoline and Isoquinoline have pyridine and a benzene ring fused together.
• Aniline is a benzene derivative with an attached NH₂ group and NOT a pyridine
• Diazines are compounds with one more carbon replaced by nitrogen such as Pyrazine and Pyramidine
• Triazines are compounds with two more carbons replaced by nitrogen and a tetrazine has four nitrogen atoms
• 2,6-Lutidine is a trivial name for 2,6-dimethylpyridine.
• Collidine is the trivial name for 2,4,6-trimethylpyridine.
• Pyridinium p-toluenesulfonate (PPTS) is a salt formed by proton exchange between pyridine and p-toluenesulfonic acid
• 2-Chloropyridine is a toxic environmentally significant component of the breakdown of the pesticide imidacloprid.

• Simple aromatic rings
• 6-Membered aromatic rings with one carbon replaced by another group: borabenzene, silabenzene, germanabenzene, stannabenzene, phosphorine, pyrylium salt

1. ^ T. M. Krygowski, H. Szatyowicz, and J. E. Zachara J. Org. Chem. 2005 70(22) 8859 - 8865; doi:10.1021/jo051354h.
2. ^ Sherman, A. R. “Pyridine” in Encyclopedia of Reagents for Organic Synthesis (Ed: L. Paquette) 2004, J. Wiley & Sons, New York. doi:10.1002/047084289.
3. ^ Gilchrist, T.L. (1997). Heterocyclic Chemistry ISBN 0470204818
4. ^ Shinkichi Shimizu, Nanao Watanabe, Toshiaki Kataoka, Takayuki Shoji, Nobuyuki Abe, Sinji Morishita, Hisao Ichimura "Pyridine and Pyridine Derivatives" in "Ullmann's Encyclopedia of Industrial Chemistry" 2007; John Wiley & Sons: New York.
5. ^ Ciamician-Dennstedt Rearrangement @ drugfuture.com Link
6. ^ Histamine Antagonists. Basically Substituted Pyridine Derivatives Charles H. Tilford, Robert S. Shelton, and M. G. van Campen J. Am. Chem. Soc.; 1948; 70(12) pp 4001 - 4009; doi:10.1021/ja01192a010
7. ^ ^{a b c} International Agency for Research on Cancer (IARC) (2000-08-22). Pyridine Summary & Evaluation (HTML). IARC Summaries & Evaluations. IPCS INCHEM. Retrieved on 2007-01-17.
8. ^ Sims, G.K. and O'Loughlin, E.J. (1989). "Degradation of pyridines in the environment". CRC Critical Reviews in Environmental Control 19 (4): 309-340. 

• International Chemical Safety Card 0323
• NIOSH Pocket Guide to Chemical Hazards
• Computational Chemistry Wikif Pyridines]
• Synthesis of pyridines (overview of recent methods)

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