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This article is about the generic structure class. For the specific chemical of this name, see ethenone.
General formula for a ketene.

A ketene is an organic compound of the form R′R″C=C=O. Ketene also refers to CH2=C=O, occasionally called ethenone. Although they are highly useful, ketene and its various derivatives are rarely isolated.[1]


Ketenes were first studied as a class by Hermann Staudinger.[2]

Ketene, the simplest ketene, is produced on a large scale industrially for use in the production of acetic anhydride. It can also be generated by pyrolysis (thermal cracking) of acetone:[3]

CH3−CO−CH3 → CH2=C=O + CH4

This reaction is called the Schmidlin ketene synthesis.[4][5]

Ketenes can be prepared from acyl chlorides by an elimination reaction in which HCl is lost:

Formation of a ketene from an acyl chloride.

In this reaction, a base, usually triethylamine, removes the acidic proton alpha to the carbonyl group, inducing the formation of the carbon-carbon double bond and the loss of a chloride ion.

Ketenes can also be formed from α-diazoketones by Wolff rearrangement.

Another way to generate ketenes is through flash vacuum thermolysis with 2-pyridylamines. Plüg and Wentrup developed a method in 1997 that improved on FVT reactions to produce ketenes with a stable FVT that is moisture insensitive, using mild conditions (480 °C). The N-pyridylamines are prepared via a condensation with R-malonates with N-amino(pyridene) and DCC as the solvent.[6]

Reactions and applications[edit]

Ketenes are generally very reactive, and participate in various cycloadditions. One important process is the dimerization to give propiolactones. A specific examplethe dimerizaation of the ketene of stearic acid affords alkyl ketene dimers, which are widely used in the paper industry.[7] AKD's react with the hydroxyl groups on the celluose via esterification reaction. The

They will also undergo [2+2] cycloaddition reactions with electron-rich alkynes to form cyclobutenones, or carbonyl groups to form beta-lactones. With imines beta-lactams are formed. This is the Staudinger synthesis, a facile route to this important class of compounds. With acetone, ketene reacts to give Isopropenyl acetate.[1]

Reactions between diols (HO−R−OH) and bis-ketenes (O=C=CH−R′−CH=C=O) yield polyesters with a repeat unit of (−O−R−O−CO−R′−CO).

Ethyl acetoacetate, a important starting material in organic synthesis, can be prepared using a diketene in reaction with ethanol. They directly form ethyl acetoacetate, and the yield is high when carried out under controlled circumstances; this method is therefore used industrially.

See also[edit]


  1. ^ a b Raimund Miller, Claudio Abaecherli, Adel Said, Barry Jackson "Ketenes" in Ullmann's Encyclopedia of Industrial Chemistry, 2001, Wiley-VCH, Weinheim. doi: 10.1002/14356007.a15_063
  2. ^ Hermann Staudinger (1905). "Ketene, eine neue Körperklasse" [Ketenes, a new class of substances]. Berichte der deutschen chemischen Gesellschaft. 38 (2): 1735–1739. doi:10.1002/cber.19050380283. 
  3. ^ Weygand, Conrad (1972). Hilgetag, G.; Martini, A., eds. Weygand/Hilgetag Preparative Organic Chemistry (4th ed.). New York: John Wiley & Sons, Inc. pp. 1031–1032. ISBN 0471937495. 
  4. ^ Ketene in Organic Syntheses Organic Syntheses, Submitted by C. D. Hurd Checked by Oliver Kamm Coll. Vol. 1, p.330 (1941); Vol. 4, p.39 (1925). Link
  5. ^ Julius Schmidlin and Maximilian Bergman (1910) "Darstellung des Ketens aus Aceton" (Preparation of ketene from acetone), Berichte der deutschen chemischen Gesellschaft, 43 (3) : 2821-2823.
  6. ^
  7. ^ Raimund Miller, Claudio Abaecherli, Adel Said, Barry Jackson "Ketenes" in Ullmann's Encyclopedia of Industrial Chemistry, 2001, Wiley-VCH, Weinheim. doi: 10.1002/14356007.a15_063