Heterostructures of 2D materials and their applications in biosensing

Heterostructures of two-dimensional (2D) materials have attracted attention due to their struc-tures and multifunctional interfacial characteristics. The unique properties of these hetero-structures are primarily due to electronic structure modification (Fermi energy level, the density of states, synergetic work function, and so on) at the interface. The high transparency, atomic thickness, vast specific area, exceptional optical/electrical properties, and additional biocom-patibility of 2D heterostructure materials and their application as various biosensors, including electrochemical, surface plasma resonance, immunosensor, photoelectrochemical, nucleic acid -based, enzyme-based, aptamer, protein-based, and electrochemiluminescent biosensors. Finally, the synthesis strategies, physicochemical properties, fabrication, working mechanism, and per-formances of these 2D heterostructured material-based biosensors are discussed. The current challenges and future perspectives of this study are highlighted. This review will encourage innovative visions and technical advances for upcoming research.

Automated summary

Heterostructures of two-dimensional materials have unique properties due to electronic structure modification at the interface, and can be used in various biosensors, showing great potential for applications.