Novel Electron-Rich Bulky Phosphine Ligands Facilitate the Palladium-Catalyzed Preparation of Diaryl Ethers
Attila Aranyos(Massachusetts Institute of Technology), David W. Old(Massachusetts Institute of Technology), Ayumu Kiyomori(Massachusetts Institute of Technology), John P. Wolfe(Massachusetts Institute of Technology), Joseph P. Sadighi(Massachusetts Institute of Technology), Stephen L. Buchwald(Massachusetts Institute of Technology)
Cited by 535
Abstract
A general method for the palladium-catalyzed formation of diaryl ethers is described. Electron-rich, bulky aryldialkylphosphine ligands, in which the two alkyl groups are either tert-butyl or 1-adamantyl, are the key to the success of the transformation. A wide range of electron-deficient, electronically neutral and electron-rich aryl bromides, chlorides, and triflates can be combined with a variety of phenols with the use of sodium hydride or potassium phosphate as base in toluene at 100 °C. The bulky yet basic nature of the phosphine ligand is thought to be responsible for increasing the rate of reductive elimination of the diaryl ether from palladium.
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