The seminal importance of detecting ions and molecules for point-of-care tests has driven
the search for more sensitive, specific, and robust sensors. Electronic detection holds …

In comparison with traditional clinical diagnosis methods, field–effect transistor (FET)–based
biosensors have the advantages of fast response, easy miniaturization and integration for …

In this paper, recent works on biologically coupled gate field-effect transistor (bio-FET)
sensors are introduced and compared to provide a perspective. Most biological phenomena …

This paper gives a brief survey on biologically sensitive FEDs (field‐effect devices) and
introduces some recent approaches in this field. Basic concepts, functional principles and …

The demand for miniaturized point‐of‐care chemical/biochemical sensors has driven the
development of field‐effect transistors (FETs) based pH sensors over the last 50 years. This …

The use of field-Effect-Transistor (FET) type biosensing arrangements has been highlighted
by researchers in the field of early biomarker detection and drug screening. Their non …

BACKGROUND Chemical and biological sensing systems are important in a number of
different applications, such as medical, environmental, agricultural, military and industrial …

In recent years there has been great progress in applying FET-type biosensors for highly
sensitive biological detection. Among them, the ISFET (ion-sensitive field-effect transistor) is …

Biologically sensitive field-effect transistors (BioFETs) are one of the most abundant classes
of electronic sensors for biomolecular detection. Most of the time these sensors are realized …

Biologically sensitive field-effect devices (BioFEDs) advantageously combine the electronic
field-effect functionality with the (bio) chemical receptor's recognition ability for (bio) …