Toward the Commercialization of Carbon Nanotube Field Effect Transistor Biosensors

Abstract: The development of biosensors based on field-effect transistors (FETs) using atomically thick carbon nanotubes (CNTs) as a channel material has the potential to revolutionize the related field due to their small size, high sensitivity, label-free detection, and real-time monitoring capabilities. Despite extensive research efforts to improve the sensitivity, selectivity, and practicality of CNT FET-based biosensors, their commercialization has not yet been achieved due to the non-uniform and unstable device per… Show more

“…For water quality monitoring, graphene-based sensors can detect a range of chemical and biological contaminants. These include heavy metals (such as lead, 11 mercury, 12 and cadmium 13 ), organic pollutants (such as pesticides 14 and pharmaceuticals 15 ), and microbial contaminants (like bacteria 16 and viruses 17 ). Graphene's high conductivity and ability to form strong bonds with various molecules make it an ideal material for sensors, which can provide precise and rapid measurements of these pollutants.…”

Sensitive and selective detection of heavy metal ions and organic pollutants with graphene-integrated sensing platforms

“…For water quality monitoring, graphene-based sensors can detect a range of chemical and biological contaminants. These include heavy metals (such as lead, 11 mercury, 12 and cadmium 13 ), organic pollutants (such as pesticides 14 and pharmaceuticals 15 ), and microbial contaminants (like bacteria 16 and viruses 17 ). Graphene's high conductivity and ability to form strong bonds with various molecules make it an ideal material for sensors, which can provide precise and rapid measurements of these pollutants.…”

Sensitive and selective detection of heavy metal ions and organic pollutants with graphene-integrated sensing platforms

“…Despite their promising potential, the commercialization of CNFET biosensors also poses challenges [77]. Producing large-scale, high-quality carbon nanomaterials remains a key challenge, as existing methods are often not scalable or cost-effective enough for commercial production.…”

CNT and Graphene-Based Transistor Biosensors for Cancer Detection: A Review

“…In recent years, extensive research has been carried out to develop biosensors based on various technologies, such as surface plasmon resonance, quartz crystal microbalance, and field-effect transistors (FETs) [1][2][3]. Among these, FET-based biosensors have shown tremendous potential due to their high sensitivity, label-free detection, real-time monitoring capabilities, and potential for miniaturization [4][5][6][7][8]. FET-based biosensors rely on the modulation of the electric field at the interface between the gate and the sensing layer to detect biomolecules [9].…”

A Novel Dielectric Modulated Misaligned Double-Gate Junctionless MOSFET as a Label-Free Biosensor