Carbon dot-based biosensors for the detection of communicable and non -communicable diseases

Abstract

Due to their fascinating chemical, optical, electrical, and biological properties carbon dots (CDs or CDots), carbon quantum dots (CQDs), and graphene quantum dots (GQDs) have attracted attention in biosensing as they can greatly improve the detection limit, sensitivity, and selectivity of biosensors. In general, CDs, CQDs, and GQDs are a class of carbon-based nanomaterials that are characterized by extraordinary fluorescence, a size less than 10 nm, high stability, low toxicity, and being easy to synthesize and presenting functional groups in their surface area that vary according to their synthesis source. In this review, a general description of the main methods and precursors reported in the scientific literature for the synthesis of CDs, CQDs, and GQDs are presented, as well as the chemical, optical, electrical, and biological properties that stand out the most from them; moreover, the main objective of this review is to summarize the application of these carbonaceous nanomaterials in biosensors for the detection of communicable and non-communicable diseases. The article summarizes the applications of CDs, CQDs, and GQDs according to the group of diseases they detected using the international classification of diseases in its 10th edition (ICD-10). To facilitate the reader's access to significant information from these biosensors, several tables summarize the information associated with the type of biomarker, the working ranges, and the biosensor assembly.