Neslihan Torun scite author profile

Neslihan Torun

2Publications

83Citation Statements Received

87Citation Statements Given

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115

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Erciyes University

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Physically Unclonable Surfaces via Dewetting of Polymer Thin Films

Torun

Sakir

et al. 2021

ACS Appl. Mater. Interfaces

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From anti-counterfeiting to biotechnology applications, there is a strong demand for encoded surfaces with multiple security layers that are prepared by stochastic processes and are adaptable to deterministic fabrication approaches. Here, we present dewetting instabilities in nanoscopic (thickness <100 nm) polymer films as a form of physically unclonable function (PUF). The inherent randomness involved in the dewetting process presents a highly suitable platform for fabricating unclonable surfaces. The thermal annealinginduced dewetting of poly(2-vinyl pyridine) (P2VP) on polystyrenegrafted substrates enables fabrication of randomly positioned functional features that are separated at a microscopic length scale, a requirement set by optical authentication systems. At a first level, PUFs can be simply and readily verified via reflection of visible light. Area-specific electrostatic interactions between P2VP and citrate-stabilized gold nanoparticles allow for fabrication of plasmonic PUFs. The strong surface-enhanced Raman scattering by plasmonic nanoparticles together with incorporation of taggants facilitates a molecular vibration-based security layer. The patterning of P2VP films presents opportunities for fabricating hybrid security labels, which can be resolved through both stochastic and deterministic pathways. The adaptability to a broad range of nanoscale materials, simplicity, versatility, compatibility with conventional fabrication approaches, and high levels of stability offer key opportunities in encoding applications.

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Silver nanoflowers with SERS activity and unclonable morphology

Sakir

Torun

Kayacı

et al. 2023

Materials Today Chemistry

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Neslihan Torun

Physically Unclonable Surfaces via Dewetting of Polymer Thin Films

Silver nanoflowers with SERS activity and unclonable morphology

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