Oxidative addition of aryl halides to transient anionic σ-aryl-palladium(0) intermediates - Application to palladium-catalyzed reductive coupling of aryl halides

Christian Amatore, Emmanuelle Carré, Anny Jutand, Hideo Tanaka, Qinghua Ren, Sigeru Torii

Research output: Contribution to journalArticlepeer-review

69 Citations (Scopus)

Abstract

The rates and mechanism of the reactions of a series of aryl-ligated, anionic palladium(0) complexes Ar-Pd0-(PPh3) 2- with para-substituted iodobenzenes were investigated by means of transient electrochemistry. The reaction was found to be first order in each reactant and to proceed similarly to oxidative addition of aryl halides to the halide-ligated species X-Pd0(PPh3)2 -, although much faster and less sensitive to electronic factors. Owing to the short lifetime (t1/2 ≈ 1-5 ms) of the product of this reaction, it could not be characterized in detail. However, based on kinetic results, this transient species is thought to be an anionic pentacoordinated bisarylpalladium(11) complex, which undergoes rapid loss of halide ligand to yield, most probably, a bisarylpalladium(II) neutral species. Based on the study of this reaction and on previously reported results, we propose a mechanism for the palladium-catalyzed homocoupling of aryl halides consisting of a catalytic cycle initiated by oxidative addition of an aryl halide to a zerovalent tris-ligated palladium center. Two-electron reduction of the pentacoordinated arylpalladium(II) anionic species thus formed gives a tris-ligated anionic arylpalladium(0) center, which undergoes oxidative addition with a second aryl halide molecule to eventually lead to a bisaryl-palladium(II) neutral species. Reductive elimination of a bisaryl molecule from this center closes the catalytic cycle by regenerating the initial zerovalent palladium complex. The application of this sequence to the catalytic heterocoupling of aryl halides is discussed, and it is concluded, on the basis of Hammett correlations, that statistical yields should be observed, in agreement with the results obtained for preparative reactions in DMF.

Original languageEnglish
Pages (from-to)957-966
Number of pages10
JournalChemistry - A European Journal
Volume2
Issue number8
DOIs
Publication statusPublished - Dec 1 1996

ASJC Scopus subject areas

  • Catalysis
  • Organic Chemistry

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