Palladium-Catalyzed Homocoupling of Highly Fluorinated Arylboronates: Studies of the Influence of Strongly vs Weakly Coordinating Solvents on the Reductive Elimination Process

C–C reductive elimination from [PdL2(C6F5)2] to form polyfluorinated biaryls has been a challenge for over 50 years. Thus, palladium-catalyzed homocoupling of arylboronates (ArF–Bpin) containing two ortho-fluorine substituents is very difficult, as the reaction typically stops at the [PdL2(ArF)2] st...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2020-04, Vol.142 (13), p.6036-6050
Main Authors: Budiman, Yudha P, Jayaraman, Arumugam, Friedrich, Alexandra, Kerner, Florian, Radius, Udo, Marder, Todd B
Format: Article
Language:English
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Summary:C–C reductive elimination from [PdL2(C6F5)2] to form polyfluorinated biaryls has been a challenge for over 50 years. Thus, palladium-catalyzed homocoupling of arylboronates (ArF–Bpin) containing two ortho-fluorine substituents is very difficult, as the reaction typically stops at the [PdL2(ArF)2] stage after two transmetalation steps. The transmetalated complexes cis-[Pd­(MeCN)2(C6F5)2] (3a), cis-[Pd­(MeCN)2(2,4,6-C6F3H2)2] (3b), and cis-[Pd­(MeCN)2(2,6-C6F2H3)2] (3e) have been isolated from the reaction of ArF–Bpin with Pd­(OAc)2 in acetonitrile solvent, with no homocoupling observed. However, catalytic homocoupling proceeds smoothly in a “weakly coordinating” arene solvent as long as no ancillary ligands or coordinating solvents are present. DFT computations reveal that the active catalyst formed by arene solvent coordination leads to an overall reduced barrier for the reductive elimination step compared to the formation of stable [PdL2(ArF)2] complexes in the presence of a donor ligand or solvent L.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.9b11871