Portal de Periódicos da CAPES

(Invited) 2D Materials for Cryptography

2019; Institute of Physics; Volume: MA2019-01; Issue: 12 Linguagem: Inglês

10.1149/ma2019-01/12/824

2152-8365

Saptarshi Das,

DNA and Biological Computing

In recent year, there has been unprecedented advances in 2D materials based devices that provide low cost, energy efficient, and high performance solutions for emerging technologies such as the Internet of Things (IoT). The IoT technology is estimated to connect more than 200 million smart digital devices by the year 2020 that will be involved in the generation, acquisition, storage and communication of an unfathomable amount of digital information pertaining to individual, institutional, governmental and military activities. Unfortunately, this digital information continues to be vulnerable to theft, manipulation, and misuse through hacking, cyber-attacks and internet crimes. Therefore, it is apparent that the IoT technology will benefit from smart devices with powerful, robust and in-built information security system in order to ensure data integrity, and confidentiality. In this invited talk, I will introduce, for the first time, a robust, reliable, high entropy, low cost, low power, area efficient, reconfigurable, non-volatile, and on-chip security for 2D material based multifunctional devices by exploiting inherent disorders associated with carrier transport in grain boundary dominated 2D field effect transistors (FETs).