Anticounterfeiting of goods is an urgent need both for luxury and cheap everyday life products. Their identification is usually based on overt technologies as printed codes, easy to produce but to be cloned as well. In this work, a standard QR-code printed on office paper but hidden by a plasmonic multilayer system is exploited. The covert label is then protected by a peculiar reading mechanism, which is only possible in specific illumination conditions. The overall photonic structure consisting of the metal -insulator -metal -insulator, the printed random QR code and the paper substrate results in a strong physical unclonable function (PUF) that provides a multi-level identification and authentication of goods ensuring uniqueness of nominally quasi-identical tags and resistance to tampering/cloning attacks. The proposed paper-based camouflage physical unclonable function (PC-PUF) can be easily fabricated by low cost and large area techniques paving the way for an easy integration in an industrial supply-chain as tags devoted to protect consumer merchandises.
Hybrid Camouflaged Anticounterfeiting Token in a Paper Substrate / Ferraro, Antonio; Lio, Giuseppe Emanuele; Bruno, Mauro Daniel Luigi; Nocentini, Sara; De Santo, Maria Penolepe; Wiersma, Diederik Sybolt; Riboli, Francesco; Caputo, Roberto; Barberi, Riccardo Cristoforo. - In: ADVANCED MATERIALS TECHNOLOGIES. - ISSN 2365-709X. - 8:4(2023). [10.1002/admt.202201010]
Hybrid Camouflaged Anticounterfeiting Token in a Paper Substrate
Nocentini, Sara;Wiersma, Diederik Sybolt;
2023
Abstract
Anticounterfeiting of goods is an urgent need both for luxury and cheap everyday life products. Their identification is usually based on overt technologies as printed codes, easy to produce but to be cloned as well. In this work, a standard QR-code printed on office paper but hidden by a plasmonic multilayer system is exploited. The covert label is then protected by a peculiar reading mechanism, which is only possible in specific illumination conditions. The overall photonic structure consisting of the metal -insulator -metal -insulator, the printed random QR code and the paper substrate results in a strong physical unclonable function (PUF) that provides a multi-level identification and authentication of goods ensuring uniqueness of nominally quasi-identical tags and resistance to tampering/cloning attacks. The proposed paper-based camouflage physical unclonable function (PC-PUF) can be easily fabricated by low cost and large area techniques paving the way for an easy integration in an industrial supply-chain as tags devoted to protect consumer merchandises.File | Dimensione | Formato | |
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A30_Hybrid Camouflaged Anticounterfeiting Token in a Paper Substrate.pdf
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