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Divergent Synthesis of Chiroptical Molecular Switches Based on 1,2-Diaxial Atropisomers

Tian‐Jiao Han, Qiu-Le Yang, Jin‐Feng Hu, Min‐Can Wang, Guang‐Jian Mei

2024JACS Au20 citationsDOIOpen Access PDF

Abstract

The development of chiroptical molecular switches for chiral sensing, data communication, optical displays, chiral logic gates, and asymmetric catalysis is currently a vibrant frontier of science and technology. Herein, we report a practical artificial dynamic system based on a 1,2-diaxial atropisomer. Organocatalytic parallel kinetic resolution allows the divergent synthesis of two sets of stereoisomers with vicinal C-C and N-N axes from the same racemic single-axis substrates. By simply varying the configuration of the single catalyst, all four stereoisomers are accessible. The successive conduction of covalent unlocking/locking and thermal-isomerization processes enables sequential switching between all four atropisomeric states with electronic circular dichroism signal reversal, providing an example of multistate chiroptical molecular switches.

Topics & Concepts

AtropisomerChemistryStereochemistryAxial and Atropisomeric Chirality SynthesisMolecular spectroscopy and chiralitySynthesis and Properties of Aromatic Compounds
Divergent Synthesis of Chiroptical Molecular Switches Based on 1,2-Diaxial Atropisomers | Litcius