Unclonable Plasmonic Security Labels Achieved by Shadow-Mask-Lithography-Assisted Self-Assembly

Zheng, Yuanhui; Jiang, Cheng; Ng, Soon Hock; Lu, Yong; Han, Fei; Bach, Udo; Gooding, J. Justin; Justin Gooding, J.

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Wiley, Advanced Materials, 12(28), p. 2330-2336, 2016

DOI: 10.1002/adma.201505022

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Unclonable Plasmonic Security Labels Achieved by Shadow-Mask-Lithography-Assisted Self-Assembly

Journal article published in 2016 by Yuanhui Zheng, Cheng Jiang, Soon Hock Ng, Yong Lu, Fei Han, Udo Bach, J. Justin Gooding, J. Justin Gooding

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Abstract

An unclonable plasmonic anti-counterfeiting strategy is demonstrated, which involves the use of molecule-embedded metal@silica core-shell nanoparticles as information carriers. A shadow-mask-lithography-assisted self-assembly is developed for the fabrication of the plasmonic security labels. The produced security labels show multiple sets of coding information that are highly unique, technically unreplicable, and can be robustly decoded by portable microscopes within seconds.

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Unclonable Plasmonic Security Labels Achieved by Shadow-Mask-Lithography-Assisted Self-Assembly

Abstract