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The role of mono-protected amino acid (MPAA) ligands in accelerating enantioselective cyclopalladation and palladium-catalyzed C–H functionalization was investigated using kinetic, spectroscopic, and computational methods. The catalytic relevance of characterized di-palladium… Click to show full abstract
The role of mono-protected amino acid (MPAA) ligands in accelerating enantioselective cyclopalladation and palladium-catalyzed C–H functionalization was investigated using kinetic, spectroscopic, and computational methods. The catalytic relevance of characterized di-palladium species was evaluated by kinetic analysis. The kinetic method of continuous variation (MCV) demonstrated that a complex containing a single MPAA-bridged di-palladium core (Pd2(MPAA)1) is an active catalyst for the reactions studied. The experimental findings are consistent with density functional theory calculations that indicate that enantioinduction can be achieved by a single MPAA ligand bridging a di-palladium catalyst through secondary sphere hydrogen-bonding interactions that lower the barrier to C–H activation of the major enantiomer.
Journal Title: ACS Catalysis
Year Published: 2019
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