Litcius/Paper detail

Mechanochemical Felkin–Anh Model: Achieving Forbidden Reaction Outcomes with Mechanical Force

Tom Bettens, Mercedes Alonso, Paul Geerlings, Frank De Proft

2023The Journal of Organic Chemistry11 citationsDOI

Abstract

Anti-Felkin-Anh diastereoselectivity can be achieved for nucleophilic additions to α-chiral ketones upon stretching the ketone with a mechanical pulling force. Herein, a mechanochemical Felkin-Anh model is proposed for predicting the outcome of a nucleophilic addition to an α-chiral ketone. Essentially, the fully stretched chiral ketone has one substituent shielding each side of the carbonyl, in contrast to the Felkin-Anh model, in which free rotation around a bond is required to achieve the two rotamers of the ketone. Depending on the pulling scenario, either Felkin-Anh or anti-Felkin-Anh diastereoselectivity is obtained. The model is entirely based on the distance between the pulling points, which is maximized in the anti-periplanar arrangement. The major diastereomer is associated with the approach with the least steric interactions. The intuitive model is validated by means of mechanochemical density functional theory calculations. Importantly, the ketone is fully stretched in the sub 1 nN force regime, thus minimizing the risk of undesired homolytic bond rupture. Moreover, the mechanical force is not used for lowering the reaction barriers associated with the nucleophilic addition; instead, it is solely applied for locking the conformation of a molecule and provoking otherwise inaccessible reaction pathways on the force-modified potential energy surface.

Topics & Concepts

ChemistryKetoneNucleophileSteric effectsSubstituentConformational isomerismComputational chemistryDiastereomerStereochemistryMoleculeOrganic chemistryCatalysisForce Microscopy Techniques and ApplicationsCrystallography and molecular interactionsEnzyme Structure and Function