Dynamical Theory of Chiral-Induced Spin-Polarization and Magnetization

Oral-In-person  · Withdrawn

Abstract

Despite generally lacking ferromagnetic properties or strong spin–orbit coupling, electrons in chiral molecules exhibit unique spin-dependent transport behavior, known as chiral-induced spin selectivity (CISS). This phenomenon implies a profound connection between chirality and spin and draws attention to the link between chirality and magnetism. Experiments in recent years have shown that chirality can induce spin-polarizations and magnetizations, providing fresh insights into interpreting chirality-related biochemical processes and designing nanomagnetic devices. In this talk, we present a dynamical theoretical model aimed at elucidating how charge-polarization combined with the CISS leads to spin-polarization and magnetization. Our theoretical model successfully explains the spin-polarization and magnetization observed in three types of experiments, where charge-polarization is induced in the chiral molecules by the dispersion interaction, gate voltage, and molecular adsorption. The model simulates a clear time evolution process and provides a comprehensive theoretical framework for this field.

Publication: J. Phys. Chem. Lett. 16, 6500–6506 (2025)

Presenters

  • Peng-Yi Liu

    • Peking University

Authors

  • Peng-Yi Liu

    • Peking University
  • Tian-Yi Zhang

  • Qing-Feng Sun