The evolutionary success in information technology has been sustained by the rapid growth
of sensor technology. Recently, advances in sensor technology have promoted the …

Nanopore-based sensors have established themselves as a prominent tool for solution-
based, single-molecule analysis of the key building blocks of life, including nucleic acids …

Electrically–transduced sensors, with their simplicity and compatibility with standard
electronic technologies, produce signals that can be efficiently acquired, processed, stored …

Detection of analytes by means of field-effect transistors bearing ligand-specific receptors is
fundamentally limited by the shielding created by the electrical double layer (the “Debye …

Abstract Field-effect transistor (FET)-based biosensors allow label-free detection of
biomolecules by measuring their intrinsic charges. The detection limit of these sensors is …

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 …

Most methods for the detection of nucleic acids require many reagents and expensive and
bulky instrumentation. Here, we report the development and testing of a graphene-based …

Bipolar junction transistors (BJTs), the basic building blocks of integrated circuits, are
deployed to control switching applications and logic operations. However, as the thickness …

Graphene field-effect transistors (GFETs) are emerging as bioanalytical sensors, in which
their responsive electrical conductance is used to perform quantitative analyses of …

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 …