A.M. Nyamsi Hendji scite author profile

ABSTUCTDisposable conductometric microbiosensors based on immobilization of acetyl and butyrylcholinesterases (BuChEs) on interdigitated electrodes were fabricated. Enzymes were immobilized by crosslinking with bovine serum albumin and the differential output between the pair of electrodes covered with the enzyme membrane and the pair covered with albumin only was recorded. On the basis of these biosensors, a biochemical assay for pesticides in liquids was developed. Respective detection limits were 5 X lo-" M for diisopropyl fluorophosphate (DFP), lo-' M for trichlorfon, and M for paraoxon-methyl and paraoxon-ethyl for the assavs based on the enzymes tested. The presence of pesticides in the sample in concentration exceeding the detection limits can be detected after only 10 minutes of incubation, whereas, in order to extend the range of the determined pesticide concentration and to improve the accuracy of the assay, it is better to use incubation times longer than 30 minutes. Use of pyridin-2-aldoximide methiodide as reactivating agent allowed one to achieve the complete recovery of the sensor response when it was incubated in lowconcentrated pesticide solutions, e.g., less than M for paraoxon-methyl and during a short time, e.g., 10 to 20 minutes, for M paraoxon-methyl solution.

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Glucose-sensitive field-effect transistor with additional Nafion membrane

Солдаткин

El'skaya

Шульга

et al. 1993

Analytica Chimica Acta

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Enzyme biosensor based on a micromachined interdigitated conductometric transducer: application to the detection of urea, glucose, acetyl- andbutyrylcholine chlordes

Hendji

Jaffrézic‐Renault

Martelet

et al. 1994

Sensors and Actuators B: Chemical

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A.M. Nyamsi Hendji

Sensitive detection of pesticides using a differential ISFET-based system with immobilized cholinesterases

Conductometric biosensors based on cholinesterases for sensitive detection of pesticides

Glucose-sensitive field-effect transistor with additional Nafion membrane

Enzyme biosensor based on a micromachined interdigitated conductometric transducer: application to the detection of urea, glucose, acetyl- andbutyrylcholine chlordes

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