Journal
ADVANCED MATERIALS
Volume 34, Issue 2, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adma.202104054
Keywords
laser processing; metasurfaces; nanophotonics; security printing
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Funding
- HID Global CID
- ANR [ANR-18-CE39-0010]
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Passive plasmonic metasurfaces enable image multiplexing by displaying different images under various observation modes, including naked-eye observation and polarized light. The laser-processed random plasmonic metasurfaces enhance spatial resolution and image quality for commercial use through self-organized patterns.
Passive plasmonic metasurfaces enable image multiplexing by displaying different images when altering the conditions of observation. Under white light, three-image multiplexing with polarization-selective switching has been recently demonstrated using femtosecond-laser-processed random plasmonic metasurfaces. Here, the implementation of image multiplexing is extended, thanks to a color-search algorithm, to various observation modes compatible with naked-eye observation under incoherent white light and to four-image multiplexing under polarized light. The laser-processed random plasmonic metasurfaces enabling image multiplexing exhibit self-organized patterns that can diffract light or induce dichroism through hybridization between the localized surface plasmon resonance of metallic nanoparticles and a lattice resonance. Improved spatial resolution makes the image quality compatible with commercial use in secured documents as well as the processing time and cost thanks to the use of a nanosecond laser. This high-speed and flexible laser process, based on energy-efficient nanoparticle reshaping and self-organization, produces centimeter-scale customized tamper-proof images at low cost, which can serve as overt security features.
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