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Inducing transient enantiomeric excess in a molecular quantum racemic mixture with microwave fields

Wenhao Sun, Denis S. Tikhonov, Himanshi Singh, Amanda L. Steber, Cristóbal Pérez, Melanie Schnell

2023Nature Communications18 citationsDOIOpen Access PDF

Abstract

Chiral molecules with low enantiomer interconversion barriers racemize even at cryogenic temperatures due to quantum tunneling, forming a racemic mixture that is impossible to separate using conventional chemical methods. Here we both experimentally and theoretically demonstrate a method to create and probe a state-specific enantiomeric enrichment for such molecular systems. The coherent, non-linear, and resonant approach is based on a microwave six-wave mixing scheme and consists of five phase-controlled microwave pulses. The first three pulses induce a chiral wavepacket in a chosen rotational state, while the consecutive two pulses induce a polarization for a particular rotational transition (listen transition) with a magnitude proportional to the enantiomeric excess created. The experiments are performed with the transiently chiral molecule benzyl alcohol, where a chiral molecular response was successfully obtained. This signal demonstrates that enantiomeric excess can be induced in a quantum racemic mixture of a transiently chiral molecule using the developed microwave six-wave mixing scheme, which is an important step towards controlling non-rigid chiral molecular systems.

Topics & Concepts

EnantiomerMicrowaveEnantiomeric excessMoleculeChemistryChemical physicsRacemic mixturePolarization (electrochemistry)Molecular physicsEnantioselective synthesisPhysicsPhysical chemistryStereochemistryOrganic chemistryQuantum mechanicsCatalysisMolecular spectroscopy and chiralityMolecular Spectroscopy and StructureSpectroscopy and Quantum Chemical Studies
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