Andrew T Brusoe1, John F Hartwig1. 1. Department of Chemistry, University of California, Berkeley, California 94720, United States.
Abstract
We report the synthesis of fluorinated anilines by palladium-catalyzed coupling of fluoroalkylamines with aryl bromides and aryl chlorides. The products of these reactions are valuable because anilines typically require the presence of an electron-withdrawing substituent on nitrogen to suppress aerobic or metabolic oxidation, and the fluoroalkyl groups have steric properties and polarity distinct from those of more common electron-withdrawing amide and sulfonamide units. The fluoroalkylaniline products are unstable under typical conditions for C-N coupling reactions (heat and strong base). However, the reactions conducted with the weaker base KOPh, which has rarely been used in cross-coupling to form C-N bonds, occurred in high yield in the presence of a catalyst derived from commercially available AdBippyPhos and [Pd(allyl)Cl]2. Under these conditions, the reactions occur with low catalyst loadings (<0.50 mol % for most substrates) and tolerate the presence of various functional groups that react with the strong bases that are typically used in Pd-catalyzed C-N cross-coupling reactions of aryl halides. The resting state of the catalyst is the phenoxide complex, (BippyPhosPd(Ar)OPh); due to the electron-withdrawing property of the fluoroalkyl substituent, the turnover-limiting step of the reaction is reductive elimination to form the C-N bond.
We report the synthesis of fluorinated anilines by n class="Chemical">palladium-catalyzed coupling of fluoroalkylamines with aryl bromides and aryl chlorides. The products of these reactions are valuable because anilines typically require the presence of an electron-withdrawing substituent on nitrogen to suppress aerobic or metabolic oxidation, and the fluoroalkyl groups have steric properties and polarity distinct from those of more common electron-withdrawing amide and sulfonamide units. The fluoroalkylaniline products are unstable under typical conditions for C-N coupling reactions (heat and strong base). However, the reactions conducted with the weaker base KOPh, which has rarely been used in cross-coupling to form C-N bonds, occurred in high yield in the presence of a catalyst derived from commercially available AdBippyPhos and [Pd(allyl)Cl]2. Under these conditions, the reactions occur with low catalyst loadings (<0.50 mol % for most substrates) and tolerate the presence of various functional groups that react with the strong bases that are typically used in Pd-catalyzed C-N cross-coupling reactions of aryl halides. The resting state of the catalyst is the phenoxide complex, (BippyPhosPd(Ar)OPh); due to the electron-withdrawing property of the fluoroalkyl substituent, the turnover-limiting step of the reaction is reductive elimination to form the C-N bond.
Authors: Fengtian Xue; Huiying Li; Silvia L Delker; Jianguo Fang; Pavel Martásek; Linda J Roman; Thomas L Poulos; Richard B Silverman Journal: J Am Chem Soc Date: 2010-10-13 Impact factor: 15.419
Authors: Pierre Francotte; Eric Goffin; Pierre Fraikin; Pierre Lestage; Jean-Claude Van Heugen; Florian Gillotin; Laurence Danober; Jean-Yves Thomas; Patrice Chiap; Daniel-Henri Caignard; Bernard Pirotte; Pascal de Tullio Journal: J Med Chem Date: 2010-02-25 Impact factor: 7.446
Authors: Hong Geun Lee; Guillaume Lautrette; Bradley L Pentelute; Stephen L Buchwald Journal: Angew Chem Int Ed Engl Date: 2017-02-16 Impact factor: 15.336
Authors: Emily B Corcoran; Michael T Pirnot; Shishi Lin; Spencer D Dreher; Daniel A DiRocco; Ian W Davies; Stephen L Buchwald; David W C MacMillan Journal: Science Date: 2016-06-23 Impact factor: 47.728
Authors: Sii Hong Lau; Peng Yu; Liye Chen; Christina B Madsen-Duggan; Michael J Williams; Brad P Carrow Journal: J Am Chem Soc Date: 2020-11-12 Impact factor: 15.419
Authors: Christian A Malapit; Margarida Borrell; Michael W Milbauer; Conor E Brigham; Melanie S Sanford Journal: J Am Chem Soc Date: 2020-03-24 Impact factor: 15.419