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Structural color‐based physical unclonable function

Xiaofeng Lin, Daxiang Shi, Guobin Yi, Dingshan Yu

2024Responsive materials41 citationsDOIOpen Access PDF

Abstract

Abstract Commodity fraud poses significant economic and public health risks while jeopardizing market stability. A promising avenue for addressing this issue involves the incorporation of physical unclonable function (PUF) in anti‐counterfeiting labels for commodity authentication purposes. PUFs are a large number of unbreakable security labels generated through a random process, which exhibit unique physical pattern responses that are impervious to replication. In particular, a novel kind of a PUF model, called structural color‐based PUFs, combing the structural color characteristics of angle‐dependent stability and brightness with unclonable property, offers unassailable encryption capabilities and serves as a formidable safeguard against forgery. This review undertakes a comprehensive summary of recent advancements in PUF technology leveraging structural color materials. Moreover, it provides a systematic description of the recognition and authentication technology employed in optical structural color PUFs. Finally, a prospective summary and outlook is proposed to explain existing challenges, and highlight potential developments in anti‐counterfeiting technology incorporating structural color PUF labels.

Topics & Concepts

Physical unclonable functionAuthentication (law)Computer scienceReplication (statistics)Computer securityArtificial intelligenceCryptographyMathematicsStatisticsPhysical Unclonable Functions (PUFs) and Hardware SecurityAdvanced Memory and Neural ComputingNeuroscience and Neural Engineering
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