Biosensing with Surface Charge Modulated Graphene Field-Effect Transistors Beyond Nonlinear Electrolytic Screening

Abstract: In field-effect transistor (FET) biosensors, charge screening in electrolyte solutions limits sensitivity, thereby restricting the applicability of FET sensors. This is particularly pronounced in graphene FET (GFET) biosensors, where the bare graphene surface possesses a strongly negative charge, which impedes the high sensitivity of GFETs owing to nonlinear electrolytic screening at the interfaces between graphene and liquid. In this study, we counteracted the negative surface charge of graphene by decorating… Show more

“…3) These distinctive properties render graphene a highly sensitive sensing platform. We have developed a variety of graphene-based sensors [4][5][6] and technologies, 7,8) and demonstrated detection of biomolecules including proteins, [9][10][11] lectins, 12) and bacteria. 13) Recently, many researchers have used graphene FETs (G-FETs) to detect SARS-CoV-2.…”

SARS-CoV-2 detection by using graphene FET arrays with a portable microfluidic measurement system

“…3) These distinctive properties render graphene a highly sensitive sensing platform. We have developed a variety of graphene-based sensors [4][5][6] and technologies, 7,8) and demonstrated detection of biomolecules including proteins, [9][10][11] lectins, 12) and bacteria. 13) Recently, many researchers have used graphene FETs (G-FETs) to detect SARS-CoV-2.…”

SARS-CoV-2 detection by using graphene FET arrays with a portable microfluidic measurement system