AI Article Synopsis
- The study presents an innovative method for low-temperature, enantioselective C-N cross-coupling using nickel catalysts, allowing for the reaction to occur at temperatures as low as -50 °C.
- It utilizes a unique chiral N-heterocyclic carbene (NHC) ligand that enhances both the reaction efficiency and selectivity, overcoming challenges typically faced in catalyst design.
- Computational analysis reveals that the ligand's adaptable structure helps optimize the reaction at different stages, indicating potential for broader application in other metal-catalyzed asymmetric reactions.
Article Abstract
The transition-metal-catalyzed C-N cross-coupling has revolutionized the construction of amines. Despite the innovations of multiple generations of ligands to modulate the reactivity of the metal center, ligands for the low-temperature enantioselective amination of aryl halides remain a coveted target of catalyst engineering. Designs that promote one elementary reaction often create bottlenecks at other steps. We here report an unprecedented low-temperature (as low as -50 °C), enantioselective Ni-catalyzed C-N cross-coupling of aryl chlorides with sterically hindered secondary amines via a kinetic resolution process (s factor up to >300). A bulky yet flexible chiral N-heterocyclic carbene (NHC) ligand is leveraged to drive both oxidative addition and reductive elimination with low barriers and control the enantioselectivity. Computational studies indicate that the rotations of multiple σ-bonds on the C -symmetric chiral ligand adapt to the changing needs of catalytic processes. We expect this design would be widely applicable to diverse transition states to achieve other challenging metal-catalyzed asymmetric cross-coupling reactions.
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| http://dx.doi.org/10.1002/anie.202103803 | DOI Listing |
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