AI Article Synopsis
- The study showcases a powerful chiral Pd/organoboron system that effectively addresses various selectivity issues in biologically important carbohydrate polyols using prochiral alkoxyallenes as electrophiles.
- It reveals the significant role of noncovalent interactions, like hydrogen bonding and CH-π interactions, in determining the stereoselectivity within the Pd-π-allyl complex and borinate saccharide.
- This research highlights the potential of utilizing noncovalent interactions in transition metal catalysis to improve stereoselectivity in carbohydrate functionalization.
Article Abstract
Herein, we demonstrate the robustness of a synergistic chiral Pd/organoboron system in tackling a challenging suite of site-, regio-, enantio- and diastereoselectivity issues across a considerable palette of biologically relevant carbohydrate polyols, when prochiral alkoxyallenes were employed as electrophiles. In view of the burgeoning role of noncovalent interactions (NCIs) in stereoselective carbohydrate synthesis, our mechanistic experiments and DFT modeling of the reaction path unexpectedly revealed that NCIs such as hydrogen bonding and CH-π interactions between the resting states of the Pd-π-allyl complex and the borinate saccharide are critically involved in the stereoselectivity control. Our strategy thus illuminates the untapped potential of harnessing NCIs in the context of transition metal catalysis to tackle stereoselectivity challenges in carbohydrate functionalization.
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| http://dx.doi.org/10.1002/anie.202400912 | DOI Listing |
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