Nano-kirigami with giant optical chirality
Author(s)
Liu, Zhiguang; Li, Jiafang; Lu, Ling; Li, Zhi-Yuan; Du, Huifeng; Fang, Xuanlai; ... Show more Show less
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Kirigami enables versatile shape transformation from two-dimensional (2D) precursors to 3D architectures with simplified fabrication complexity and unconventional structural geometries. We demonstrate a one-step and on-site nano-kirigami method that avoids the prescribed multistep procedures in traditional mesoscopic kirigami or origami techniques. The nano-kirigami is readily implemented by in situ cutting and buckling a suspended gold film with programmed ion beam irradiation. By using the topography-guided stress equilibrium, rich 3D shape transformation such as buckling, rotation, and twisting of nanostructures is precisely achieved, which can be predicted by our mechanical modeling. Benefiting from the nanoscale 3D twisting features, giant optical chirality is achieved in an intuitively designed 3D pinwheel-like structure, in strong contrast to the achiral 2D precursor without nano-kirigami. The demonstrated nano-kirigami, as well as the exotic 3D nanostructures, could be adopted in broad nanofabrication platforms and could open up new possibilities for the exploration of functional micro-/nanophotonic and mechanical devices.
Date issued
2018-07Department
Massachusetts Institute of Technology. Department of Mechanical EngineeringJournal
Science Advances
Publisher
American Association for the Advancement of Science (AAAS)
Citation
Liu, Zhiguang, Huifeng Du, Jiafang Li, Ling Lu, Zhi-Yuan Li, and Nicholas X. Fang. “Nano-Kirigami with Giant Optical Chirality.” Science Advances 4, no. 7 (July 2018): eaat4436. © 2018 The Authors
Version: Final published version
ISSN
2375-2548