1992
DOI: 10.1002/adma.19920040605
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CHEMFET Devices for biomedical and environmental applications

Abstract: Chemically‐sensitive field effect transistors (CHEMFETS), modified with, for example, an ionophore embedde in an organic membrane, or with a biological receptor, are reviewed. The sensitivity and selectivity of the devices open up many applications in the biomedical field, for example an investigating the pH, glucose level, and sodium concentration in blood, and also in environmental monitoring where low concentrations of copper, cadmium and silver in water can be detected.

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Cited by 18 publications
(4 citation statements)
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“…These roles will be discussed in detail below. However, many reviews have previously been published on the subject of CP-based biosensors employing enzymes. As such, our coverage here will focus on key findings and the most recent literature.…”
Section: B Embedded or Attached Redox-active Enzyme-based Sensorsmentioning
confidence: 99%
“…These roles will be discussed in detail below. However, many reviews have previously been published on the subject of CP-based biosensors employing enzymes. As such, our coverage here will focus on key findings and the most recent literature.…”
Section: B Embedded or Attached Redox-active Enzyme-based Sensorsmentioning
confidence: 99%
“…Field effect transistors have been adapted to chemical sensors (ChemFETs) by incorporation into an electrochemical cell. 37,38 They can also be made into biosensors by coating the sensing surface with a biological agent such as described above for penicillin. 39 The light addressable potentiometric sensor (LAPS) determines the surface potential optically by means of the photovoltaic effect.…”
Section: Conductometry Conductometric Detection Monitorsmentioning
confidence: 99%
“…pH-ISFETs are the most common proton transducers that are being covered with polymeric membranes. The selectivity of a resulting CHEMFET depends on the ionophore incorporated into the polymeric membrane. ,,, The origin of the CHEMFET's signal is the potential difference arising at the membrane/aqueous solution interface due to the complexation of the ion carrier with the analyte ion at the outer-phase boundary of the membrane. No significant changes are reported to occur at the inner membrane boundary and the internal interface between the polymeric membrane and the FET's gate.…”
mentioning
confidence: 99%