Chemistry:Oxidation of secondary alcohols to ketones

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The oxidation of secondary alcohols to ketones is an important oxidation reaction in organic chemistry.

Propan-2-ol to propanone.png

When a secondary alcohol is oxidised, it is converted to a ketone. The hydrogen from the hydroxyl group is lost along with the hydrogen bonded to the carbon attached to oxygen. The remaining oxygen then forms double bonds with the carbon. This leaves a ketone, as R1–COR2. Ketones are quite resistant to further oxidation as it would require breaking an adjacent C–C bond, but with strong oxidants this may occur and produces esters or carboxylic acids.[1]

The reaction can occur using a variety of oxidants.

Potassium dichromate

Main page: Chemistry:Jones oxidation

A secondary alcohol can be oxidised into a ketone using acidified potassium dichromate and heating under reflux. The orange-red dichromate ion, Cr2O72−, is reduced to the green Cr3+ ion. This reaction was once used in an alcohol breath test.

PCC (Pyridinium chlorochromate)

Pyridinium chlorochromate (PCC), when used in an organic solvent, can be used to oxidise a secondary alcohol into a ketone. It has the advantage of doing so selectively without the tendency to over-oxidise.

Dess–Martin oxidation

The Dess–Martin periodinane is a mild oxidant for the conversion of alcohols to aldehydes or ketones.[2]

The reaction is performed under standard conditions, at room temperature, most often in dichloromethane. The reaction takes between half an hour and two hours to complete. The product is then separated from the spent periodinane.[3]

Swern oxidation

Swern oxidation oxidises secondary alcohols into ketones using oxalyl chloride and dimethylsulfoxide. It also requires an organic base, such as triethylamine.

Swern Oxidation Scheme.png

The by-products are dimethyl sulfide (Me2S), carbon monoxide (CO), carbon dioxide (CO2) and – when triethylamine is used as base – triethylammonium chloride (C6H15NHCl). Dimethyl sulfide and carbon monoxide are very toxic and malodorous compounds, so the reaction and the work-up needs to be performed in a fume hood or outdoors.

Oppenauer oxidation

Main page: Chemistry:Oppenauer oxidation
Oppenauer.png

Fétizon oxidation

Main page: Chemistry:Fétizon oxidation

Silver carbonate on celite oxidizes alcohols through single electron oxidation by the silver cations.

Fetizon's reagent mechanism.jpg

See also

References

  1. Burton, George et al. (2000). Salters Advanced Chemistry: Chemical (2nd ed.). Heinemann. ISBN:0-435-63120-9
  2. Dess, D. B.; Martin, J. C. J. Am. Chem. Soc. 1991, 113, 7277–87.
  3. J. S. Yadav, et al. "Recyclable 2nd generation ionic liquids as green solvents for the oxidation of alcohols with hypervalent iodine reagents", Tetrahedron, 2004, 60, 2131–35