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Charge Redistribution and Spin Polarization Driven by Correlation Induced Electron Exchange in Chiral Molecules

Jonas Fransson

2021Nano Letters119 citationsDOIOpen Access PDF

Abstract

Chiral induced spin selectivity is a phenomenon that has been attributed to chirality, spin-orbit interactions, and nonequilibrium conditions, while the role of electron exchange and correlations have been investigated only marginally until very recently. However, as recent experiments show that chiral molecules acquire a finite spin-polarization merely by being in contact with a metallic surface, these results suggest that electron correlations play a more crucial role for the emergence of the phenomenon than previously thought. Here, it is demonstrated that molecular vibrations give rise to molecular charge redistribution and accompany spin-polarization when coupling a chiral molecule to a nonmagnetic metal. The presented theory opens up new routes to construct a comprehensive picture of enantiomer separation.

Topics & Concepts

Redistribution (election)Polarization (electrochemistry)ElectronCondensed matter physicsChemical physicsMoleculeSpin polarizationChirality (physics)MetalEnantiomerChemistryMolecular physicsPhysicsQuantum mechanicsChiral anomalyStereochemistryFermionLawPhysical chemistryPolitical scienceNambu–Jona-Lasinio modelOrganic chemistryPoliticsMolecular Junctions and NanostructuresSurface Chemistry and CatalysisQuantum and electron transport phenomena