Fully 2D Materials‐Based Resistive Switching Circuits for Advanced Data Encryption
Tingting Han, Fernando Aguirre, Kaichen Zhu, Bin Yuan, Sebastián Pazos, Nan Zhang, Sui‐Dong Wang, Shaojuan Li, Mario Lanza
Abstract
Abstract Data encryption is an essential building block in modern electronic systems to prevent spying and hacking. Every day more and more objects produce electronic data, and this needs to be encrypted before being transmitted. Hence, designing devices, circuits, and systems for data encryption that can be integrated in all kinds of objects and that consume low amounts of energy is highly necessary. Here, this work reports the fabrication of flexible and transparent electronic circuits consisting of devices that exhibit threshold‐type resistive switching with a high degree of stochasticity. The cycle‐to‐cycle variability of switching voltages and state currents is significant but confined within a well‐defined range, which is consistent across multiple devices. This allows to design an efficient protocol for true random number generation. The circuits are fabricated with only synthetic 2D materials, can be fabricated in a scalable manner, and can be integrated in any object.