Controlling Catalyst Speciation to Achieve Room Temperature Pd‐Catalyzed Aminations with Aryl and Heteroaryl Chlorides
The amination of aryl halides with palladium catalysts (Buchwald‐Hartwig amination) is a widely used transformation in synthetic and drug discovery chemistry. In this report, we demonstrate that a monometallic 2‐phosphinoimidazole Pd catalyst exhibits comparable or enhanced reactivity when compared...
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| creator | Rodriguez Moreno, Mariur Setelin, Mary L. Hansen, Joshua D. Corey, James L. Noble, Kirt L. Stillwell, Lillian R. Angell, Emily Stubbs, Olivia A. Kumawat, Jugal Muñoz Gomez, Carlos Santiago Smith, Stacey J. Ess, Daniel H. Michaelis, David |
| description | The amination of aryl halides with palladium catalysts (Buchwald‐Hartwig amination) is a widely used transformation in synthetic and drug discovery chemistry. In this report, we demonstrate that a monometallic 2‐phosphinoimidazole Pd catalyst exhibits comparable or enhanced reactivity when compared to all ligands screened for room temperature amination of aryl chlorides with secondary amines. The di‐tert‐butylphosphine derivative showed extremely high reactivity while the di‐isopropyl variant led to almost complete loss of catalytic activity. Computational and experimental mechanistic and kinetic studies indicate that a monometallic Pd structure rather than a bimetallic Pd structure is key to fast catalysis. The di‐tert‐butylphosphine ligand has fast catalysis because it thermodynamically disfavors the formation of a much less active bimetallic Pd complex. A wide substrate scope is demonstrated for the arylation of secondary amines with aryl chlorides using our new catalyst system. |
| doi_str_mv | 10.1002/adsc.202401337 |
| format | Article |
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| source | Wiley Online Library Journals Frontfile Complete |
| title | Controlling Catalyst Speciation to Achieve Room Temperature Pd‐Catalyzed Aminations with Aryl and Heteroaryl Chlorides |
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