Illuminating advances in materials: optical physical unclonable functions for security applications
Illuminating advances in materials: optical physical unclonable functions for security applications
A physical unclonable function (PUF) device leverages manufacturing randomness to generate a unique fingerprint for secure authentication, encryption, and counterfeit prevention. Optical PUFs (OPUFs) have gained prominence due to their strong security, light-based challenge-response mechanisms, and potential for quantum-secure encryption. These devices have promising applications for hardware security, authentication, cryptographic key generation, and anti-counterfeiting measures across multiple industries. This review enlightens the diverse material platforms used for OPUFs, ranging from fiber optics and liquid crystals to advanced semiconductor nanocrystals and plasmonic metasurfaces, each offering distinct optical characteristics that impact security strength. While no single material system dominates the field, hybrid and multi-model approaches integrating low-dimensional materials are being explored to enhance reliability and scalability. Finally, the challenges and future perspectives are outlined, including adaptive OPUFs architectures, utilizing artificial intelligence (AI) for challenge-response generation, and their integration into quantum communication networks, highlighting how next-generation semiconductor materials can further advance OPUFs technologies.
Ali, Syeda Ramsha
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Kershaw, Stephen V.
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Faisal, Mian Muhammad
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Halak, Basel
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Abdelazim, Nema M.
2ac8bd5e-cbf1-4d9a-adcb-65dedf244b9b
14 October 2025
Ali, Syeda Ramsha
fee21608-e81d-46ae-b5a7-2b571b7f442e
Kershaw, Stephen V.
92350526-451a-4269-999a-afc0f11139e9
Faisal, Mian Muhammad
75cab22c-a652-4676-bbe6-739367eec47c
Halak, Basel
8221f839-0dfd-4f81-9865-37def5f79f33
Abdelazim, Nema M.
2ac8bd5e-cbf1-4d9a-adcb-65dedf244b9b
Ali, Syeda Ramsha, Kershaw, Stephen V., Faisal, Mian Muhammad, Halak, Basel and Abdelazim, Nema M.
(2025)
Illuminating advances in materials: optical physical unclonable functions for security applications.
Advanced Optical Materials, 13 (29), [e01564].
(doi:10.1002/adom.202501564).
Abstract
A physical unclonable function (PUF) device leverages manufacturing randomness to generate a unique fingerprint for secure authentication, encryption, and counterfeit prevention. Optical PUFs (OPUFs) have gained prominence due to their strong security, light-based challenge-response mechanisms, and potential for quantum-secure encryption. These devices have promising applications for hardware security, authentication, cryptographic key generation, and anti-counterfeiting measures across multiple industries. This review enlightens the diverse material platforms used for OPUFs, ranging from fiber optics and liquid crystals to advanced semiconductor nanocrystals and plasmonic metasurfaces, each offering distinct optical characteristics that impact security strength. While no single material system dominates the field, hybrid and multi-model approaches integrating low-dimensional materials are being explored to enhance reliability and scalability. Finally, the challenges and future perspectives are outlined, including adaptive OPUFs architectures, utilizing artificial intelligence (AI) for challenge-response generation, and their integration into quantum communication networks, highlighting how next-generation semiconductor materials can further advance OPUFs technologies.
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Advanced Optical Materials - 2025 - Ali - Illuminating Advances in Materials Optical Physical Unclonable Functions for
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e-pub ahead of print date: 24 August 2025
Published date: 14 October 2025
Identifiers
Local EPrints ID: 506520
URI: http://eprints.soton.ac.uk/id/eprint/506520
ISSN: 2195-1071
PURE UUID: 4f8c4ce6-90f0-4c45-9da4-cb3622b16cc3
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Date deposited: 11 Nov 2025 17:33
Last modified: 12 Nov 2025 02:43
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Contributors
Author:
Syeda Ramsha Ali
Author:
Stephen V. Kershaw
Author:
Mian Muhammad Faisal
Author:
Basel Halak
Author:
Nema M. Abdelazim
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