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Switching Chirality in Arrays of Shape‐Reconfigurable Spindle Microparticles

Mingzhu Liu, Xingyue Han, So Hee Nah, Tianwei Wu, Yuchen Wang, Liang Feng, Liang Wu, Shu Yang

2023Advanced Materials14 citationsDOIOpen Access PDF

Abstract

The giant circular photo-galvanic effect is realized in chiral metals when illuminated by circularly polarized light. However, the structure itself is not switchable nor is the crystal chirality in the adjacent chiral domains. Here spindle-shaped liquid crystalline elastomer microparticles that can switch from prolate to spherical to oblate reversibly upon heating above the nematic to isotropic transition temperature are synthesized. When arranged in a honeycomb lattice, the continuous shape change of the microparticles leads to lattice reconfiguration, from a right-handed chiral state to an achiral one, then to a left-handed chiral state, without breaking the translational symmetry. Accordingly, the sign of rotation of the polarized light passing through the lattices changes as measured by time-domain terahertz spectroscopy. Further, it can locally alter the chirality in the adjacent domains using near-infrared light illumination. The reconfigurable chiral microarrays will allow us to explore non-trivial symmetry-protected transport modes of topological lattices at the light-matter interface. Specifically, the ability to controllably create chiral states at the boundary of the achiral/chiral domains will lead to rich structures emerging from the interplay of symmetry and topology.

Topics & Concepts

Chirality (physics)Materials scienceLiquid crystalCircular polarizationOptical rotationTopology (electrical circuits)Condensed matter physicsOptoelectronicsChiral symmetry breakingOpticsSymmetry breakingPhysicsQuantum mechanicsMicrostripMathematicsNambu–Jona-Lasinio modelCombinatoricsAdvanced Materials and MechanicsLiquid Crystal Research AdvancementsMetamaterials and Metasurfaces Applications
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