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Controlling the symmetry of inorganic ionic nanofilms with optical chirality

Author

Listed:
  • Christopher Kelly

    (University of Glasgow)

  • Donald A. MacLaren

    (University of Glasgow)

  • Katie McKay

    (University of Glasgow)

  • Anthony McFarlane

    (University of Glasgow)

  • Affar S. Karimullah

    (University of Glasgow)

  • Nikolaj Gadegaard

    (University of Glasgow)

  • Laurence D. Barron

    (University of Glasgow)

  • Sonja Franke-Arnold

    (University of Glasgow)

  • Frances Crimin

    (University of Glasgow)

  • Jörg B. Götte

    (University of Glasgow
    Nanjing University)

  • Stephen M. Barnett

    (University of Glasgow)

  • Malcolm Kadodwala

    (University of Glasgow)

Abstract

Manipulating symmetry environments of metal ions to control functional properties is a fundamental concept of chemistry. For example, lattice strain enables control of symmetry in solids through a change in the nuclear positions surrounding a metal centre. Light–matter interactions can also induce strain but providing dynamic symmetry control is restricted to specific materials under intense laser illumination. Here, we show how effective chemical symmetry can be tuned by creating a symmetry-breaking rotational bulk polarisation in the electronic charge distribution surrounding a metal centre, which we term a meta-crystal field. The effect arises from an interface-mediated transfer of optical spin from a chiral light beam to produce an electronic torque that replicates the effect of strain created by high pressures. Since the phenomenon does not rely on a physical rearrangement of nuclear positions, material constraints are lifted, thus providing a generic and fully reversible method of manipulating effective symmetry in solids.

Suggested Citation

  • Christopher Kelly & Donald A. MacLaren & Katie McKay & Anthony McFarlane & Affar S. Karimullah & Nikolaj Gadegaard & Laurence D. Barron & Sonja Franke-Arnold & Frances Crimin & Jörg B. Götte & Stephen, 2020. "Controlling the symmetry of inorganic ionic nanofilms with optical chirality," Nature Communications, Nature, vol. 11(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-18869-9
    DOI: 10.1038/s41467-020-18869-9
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