Sustainable development information management of carbon nanomaterial-based sensors

Abstract

Electrochemical-sensing interfaces have relied on carbon’s unique electrochemical/bio/gas sensors characteristics for a long time. Furthermore, recent advancements in material design and synthesis, particularly nanomaterials, have resulted in very reliable electrochemical sensing devices with better analytical performance. Carbon nanoparticles’ extraordinary sensitivity to changes in surface conductivity caused by the presence of adsorbates allows them to be used as very sensitive. Carbon nanomaterial-based modified electrodes have also proven their capacity to serve as anchors for biomolecules, like nucleic acids, DNA, and to reduce surface fouling. As a result, carbon nanoparticles are attracting a lot of attention from researchers as a foundation for a lot of electrochemical sensors. Similarly, the electrochemical/bio/gas sensor characteristics of synthetic diamonds, such as high chemical inertness and biocompatibility, make it suitable for biochemical sensing as well as the electrochemical interface for biological systems. The recent development of carbon nanomaterial-based sensors and associated interfaces exemplifies this concept. © 2022 Elsevier B.V., All rights reserved.