Ullmann reaction

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The Ullmann reaction or Ullmann coupling [1] is a coupling reaction between aryl halides with copper. The reaction is named after Fritz Ullmann.[2]


Ullman overview
Ullman overview


A typical example is the coupling of o-chloronitrobenzene to 2,2'-dinitrobiphenyl with a copper - bronze alloy.[3]


Ullmann reaction, note the unusual reaction medium, which, at these temperatures (!), is ordinary sand


The traditional version of the Ullmann reaction requires harsh reaction conditions, and the reaction has a reputation for erratic yields. Since its discovery some improvements and alternative procedures have been introduced.[4]

The reaction mechanism of the Ullmann reaction is extensively studied. Electron spin resonance rules out a radical intermediate. The oxidative addition / reductive elimination sequence observed with palladium catalysts is unlikely for copper because copper(III) is rarely observed. The reaction probably involves the formation of an organocopper compound (RCuX) which reacts with the other aryl reactant in a nucleophilic aromatic substitution. Alternative mechanisms do exist such as σ-bond metathesis [5].

The Ullmann reaction is limited to electron deficient aryl halides and requires harsh reaction conditions. In organic synthesis this reaction is often replaced by palladium coupling reactions such as the Heck reaction, the Hiyama coupling and the Sonogashira coupling

In a variation of the Ullmann reaction, 2-bromovinylstyrene is reacted with imidazole in an ionic liquid to an n-vinylimidazole.[6] The reaction requires (L)-proline catalysis.

Imidazole Ullmann reaction. Note the reaction medium BMIMBF4, see Notes for explanation

References

  1. P.E. Fanta, Synthesis, 1974,9-21.
  2. Ullman and Bielecki, Chem. Ber. 1901, 34, 2174.
  3. Reynold C. Fuson and E. A. Cleveland, "2,2'-dinitrobiphenyl", Organic Syntheses, Coll. Vol. 3, 339. Online article
  4. J. Hassan, M. Sevignon, C. Gozzi, E. Schulz, M. Lemaire, " Aryl-Aryl Bond Formation One Century after the Discovery of the Ullmann Reaction", Chem. Rev. 2002, 102, 1359-1470.
  5. Derek van Allen, PhD Thesis, University of Massachusetts at Amherst 2004. Electronic thesis
  6. Zhiming Wang, Weiliang Bao and Yong Jiang, "L-Proline promoted Ullmann-type reaction of vinyl bromides with imidazoles in ionic liquids", Chemical Communications, 2005, 2849-51 Abstract

Notes

  • BMIMBF4 stands for the ionic liquid 1-Butyl-3-methylimidazolium tetrafluoroborate [1]


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