Prediction of enantioselectivity by monitoring reaction intermediates

13 April 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Enantioselective reactions are at the core of chemical synthesis. Their development mostly relies on prior knowledge, laborious product analysis and post-rationalization by theoretical methods. Here, we introduce a simple and fast method to determine enantioselectivities based on mass spectrometry. The method is based on ion mobility separation of diastereomeric intermediates, formed from a chiral catalyst and prochiral reactants, and delayed reactant labeling experiments to link the mass spectra with the reaction kinetics in solution. The data provide rate constants along the reaction paths of the individual diastereomeric intermediates, revealing the origins of enantioselectivity. Using the derived kinetics, the enantioselectivity of the overall reaction can be predicted. Hence, this method can offer a rapid discovery and optimization of enantioselective reactions in the future. We illustrate the method for the addition of cyclopentadiene (CP) to an α,β-unsaturated aldehyde catalyzed by a diarylprolinol silyl ether.

Keywords

Diastereoisomers
enantioselective reactions
mass spectrometry
reaction intermediates
reaction kinetics

Supplementary materials

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Description
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Supporting Information
Description
Details on synthesis, NMR analysis, kinetic fitting, duplicates of the experimental data, results of DFT calculations
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Numerical model for kinetic modelling
Description
A working excel sheet with the experimental data and the numerical model for kinetic fitting.
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