Litcius/Paper detail

Unpredictably Disordered Distribution of Hetero‐Blended Graphene Oxide Flakes with Non‐Identical Resistance in Physical Unclonable Functions

Subin Lee, Seon Yeon Choi, Byung Chul Jang, Dong Hyun Lee, Joon Young Cho, Joong Tark Han, Hocheon Yoo, Hyun Ho Kim

2023Advanced Functional Materials12 citationsDOIOpen Access PDF

Abstract

Abstract In this study, a new concept of physical unclonable functions (PUFs) is introduced comprising reduced graphene oxide (GO) materials. To create a disordered conductivity distribution, two types of GO are used: HGO, are produced by the conventional Hummers’ method, and PGO, produced by Brodie's method with an additional unique purification procedure. It is found that PGO becomes graphene‐like after room‐temperature chemical reduction. These two reduced GOs have a distinct conductivity difference of up to 10 4 times. By blending these two materials, a random mixture is created that can generate a highly unpredictable electrical signal, serving as an ideal security key with strong randomness and uniqueness. The optimized PUF device, based on this approach, demonstrates excellent performance in generating secure keys.

Topics & Concepts

GrapheneRandomnessMaterials scienceOxidePhysical unclonable functionNanotechnologyConductivityBiological systemOptoelectronicsKey (lock)Computer scienceQuantum mechanicsPhysicsMathematicsComputer securityStatisticsMetallurgyBiologyPhysical Unclonable Functions (PUFs) and Hardware SecurityAdvanced Memory and Neural ComputingNeuroscience and Neural Engineering
Unpredictably Disordered Distribution of Hetero‐Blended Graphene Oxide Flakes with Non‐Identical Resistance in Physical Unclonable Functions | Litcius