Decelerating Effect of Alkenes in the Oxidative Addition of Phenyl Iodide to Palladium(0) Complexes in Heck Reactions

In DMF, the oxidative addition of PhI to Pd⁰(PPh₃)₄ or to the anionic Pd⁰(PPh₃)₃(OAc)^- is slower in the presence of an alkene (styrene, methyl acrylate). Indeed, the concentration of the reactive Pd⁰(PPh₃)₂ or Pd⁰(PPh₃)₂(OAc)^- complex decreases because of its coordination to the alkene to form the unreactive (η²-CH₂ CHR)Pd⁰(PPh₃)₂ (R = Ph, CO₂Me) or (η²-CH₂ CHPh)Pd⁰(PPh₃)₂(OAc)^-, respectively. As already evidenced in palladium-catalyzed Stille reactions, this work establishes that, in palladium-catalyzed Heck reactions as well, the nucleophile plays a role in the kinetics of the oxidative addition (decelerating effect), as soon as it may coordinate Pd⁰ complexes. This is an essential observation, in view of the general belief that the nucleophile enters the catalytic cycle only at the stage of the attack on the aryl−Pd^II complex formed in the oxidative addition. Whenever the oxidative addition is not rate determining, the decelerating effect of the alkene on this reaction is in favor of a higher efficiency of the catalytic cycle.

Decelerating Effect of Alkenes in the Oxidative Addition of Phenyl Iodide to Palladium(0) Complexes in Heck Reactions. Christian Amatore,*, Emmanuelle Carré,Anny Jutand,* and, and Youcef Medjour. Organometallics 2002 21 (21), 4540-4545