Chichibabin pyridine synthesis explained

Chichibabin pyridine synthesis should not be confused with Chichibabin reaction.

The Chichibabin pyridine synthesis is a method for synthesizing pyridine rings. The reaction involves the condensation reaction of aldehydes, ketones, α,β-Unsaturated carbonyl compounds, or any combination of the above, with ammonia.[1] It was reported by Aleksei Chichibabin in 1924.[2] [3] Methyl-substituted pyridines, which show widespread uses among multiple fields of applied chemistry, are prepared by this methodology.[4]

Representative syntheses

The syntheses are presently conduced commercially in the presence of oxide catalysts such as modified alumina (Al2O3) or silica]] (SiO2). The reactants are passed over the catalyst at 350-500 °C. 2-Methylpyridine- and 4-methylpyridine are produced as a mixture from acetaldehyde and ammonia. 3-Methylpyridine and pyridine are produced from acrolein and ammonia. Acrolein and propionaldehyde react with ammonia affords mainly 3-methylpyridine. 5-Ethyl-2-methylpyridine is produced from paraldehyde and ammonia.

Mechanism and optimizations

These syntheses involve many reactions such as imine synthesis, base-catalyzed aldol condensations, and Michael reactions.

Many efforts have been made to improve the method.[5] [1] Conducting the reaction in the gas phase in the presence of aluminium(III) oxide.[4] zeolite (yield 98.9% at 500 K),[6]

From nitriles

Of the many variations have been explored. one approach employs nitriles as the nitrogen source. For example, acrylonitrile and acetone affords 2-methylpyridine uncontaminated with the 4-methyl derivative. In another variation, alkynes and nitriles react in the presence of organocobalt catalysts, a reaction inspired by alkyne trimerization.

See also

Notes and References

  1. Frank, R. L. . Seven, R. P. . Pyridines. IV. A Study of the Chichibabin Synthesis . Journal of the American Chemical Society . 1949 . 71 . 8 . 2629–35 . 10.1021/ja01176a008.
  2. Tschitschibabin, A. E. . Über Kondensation der Aldehyde mit Ammoniak zu Pyridinbasen . Journal für Praktische Chemie . 1924 . 107 . 1–4 . 122–8 . 10.1002/prac.19241070110.
  3. Book: Name Reactions . Chichibabin pyridine synthesis . 107–9 . Li, J. J. . 10.1007/978-3-642-01053-8_51 . 2009 . 978-3-540-40203-9.
  4. Sagitullin, R. S. . Shkil, G. P. . Nosonova, I. I. . Ferber, A. A. . Synthesis of pyridine bases by the Chichibabin method (review) . 127–40 . Chemistry of Heterocyclic Compounds . 1996 . 32 . 2 . 10.1007/BF01165434. 93717043 .
  5. Acetic Acid—Ammonium Acetate Reactions. An Improved Chichibabin Pyridine Synthesis . Weiss, M. . Journal of the American Chemical Society . 1952 . 200–2 . 74 . 1 . 10.1021/ja01121a051.
  6. Krishna Mohan, K. V. V. . Reddy, K. S. K. . Narender, N. . Kulkarni, S. J. . Zeolite Catalysed Synthesis of 5-Ethyl-2-methylpyridine under High Pressure . Journal of Molecular Catalysis A: Chemical . 2008 . 298 . 1–2 . 99–102 . 10.1016/j.molcata.2008.10.010 .

This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Chichibabin pyridine synthesis".

Except where otherwise indicated, Everything.Explained.Today is © Copyright 2009-2024, A B Cryer, All Rights Reserved. Cookie policy.