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Pd/Xu-Phos-catalyzed asymmetric elimination of fully substituted enol triflates into axially chiral trisubstituted allenes.

Jie HanSiyuan LiuHuanan WangJie WangHui QianZhi-Ming LiShengming MaJunliang Zhang
Published in: Science advances (2023)
The β-H elimination, as one of the most important elementary reactions in transition metal chemistry, is a key step in quenching the carbon-palladium bond for the Heck reaction. However, the β-H elimination of the alkenyl palladium species leading to allene is an energetically unfavored process, and therefore, it has been a long-standing challenge in control of this process via enantioselective manner. We developed a concise and efficient methodology to construct trisubstituted chiral allenes from stereodefined fully substituted enol triflates by the enantioselective β - H elimination of the alkenyl palladium species under mild conditions. The identified Xu-Phos play a crucial role in the chemoselectivity and enantioselectivity. Multiple linear regression analysis shows the important steric effect on enantioselectivity. DFT computation results allow us to propose an intramolecular base ( - OAc)-assisted deprotonation mechanism for this progress. Distortion-interaction and energy decomposition analysis indicate that the difference in electrostatic energy ( E elec ) of the two intramolecular base-assisted deprotonation transition states dominates the stereoselectivity.
Keyphrases
  • transition metal
  • molecular docking
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  • ionic liquid
  • energy transfer
  • molecular dynamics simulations
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