Abstract
Based on degradable pH-responsive hydrogel, we report on an enhanced three-dimensional data encryption security technique in which a pH value is used for information manipulation. Featuring three types of states upon the pH value variation, namely, shrinkage, expansion and degradation, the hydrogel renders a limited pH value window as the “key” for information decryption. The pH-dependent shrinkage-to-expansion conversion of the hydrogel leads to a threshold pH value for retrieving the recorded data, whilst the degradability of the hydrogel, which can be tuned by adjusting the composition ratio of PEGDA/AAc, gives rise to a second threshold pH value for irreversibly sabotaging the retrieved data. Pre-doping silver ions in the hydrogel facilitates explicit recording and reading of binary data in forms of three-dimensional silver patterns through photoreduction and scattering, respectively, with a femtosecond laser. By accurately matching the vertical spacing of the encoded silver nanopatterns with the diffraction-limited focal depth of the decryption microscope, we can tune the pH value to encrypt and retrieve information recorded in layers and set a critical pH value to smash encoded information, which proves a highly secured 3D data encoding protocol. This strategy can effectively enrich data encryption techniques, vastly enhancing data security within unattained chemical dimensions.
Highlights
We have shown that the polyethylene glycol diacrylate (PEGDA)/acrylic acid (AAc) composite hydrogel exhibits obvious threshold stimuli-response behavior, i.e., hydrogel expansion can only occur under a specific pH value
The hydrogel is rich in carboxylic acid groups which originate from AAc and the ester groups which originate from PEGDA [40]
During the deprotonation process initiated by hydroxide ions, the density of carboxylate ions (COO− )
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Several optical data encryption techniques have been developed, and their applications in document security [3], data storage [4,5], anti-counterfeiting [6,7], and other aspects have been continuously explored For these applications, information stored in the storage medium can be read repeatedly through the effective key, but cannot be protected from attacks of invalid keys. Nanomaterials 2021, 11, 1744 been developed, including carbon dot composites [17,18,19,20], AIE Polymers [21], amorphous organic materials [22], oxazolidine-functionalized nanoparticles [23], tetraphenylethylene@graphene oxide [24], smart hydrogel materials [25,26,27,28,29], etc Among these materials, hydrogel with unique three-dimensional porous structures [30,31,32] exhibits outstanding versality and feasibility for carrying information and manipulating multidimensional data. Data decryption, and three information states can be obtained, namely, encryption, decryption and irreversible
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