Add to ORKGCholinesterase sensors based on glassy carbon and planar epoxy graphite electrodes modified with processed polyaniline have been developed and examined for pesticide detection. The modification of electrode surface with polyaniline provides high operational stability and sensitivity towards the pesticides investigated. The detection limits found (coumaphos, 0.002, trichlorfon, 0.04, aldicarb, 0.03, methiocarb, 0.08 mg l-1) make it possible to detect the pollutants in the waters on the level of limited threshold levels without sample preconcentration. © 2002 Elsevier Science B.V. All rights reserved
Cholinesterase sensors based on screen-printed electrodes modified with polyaniline, 7,7′,8,8′-tetra...
Flow cholinesterase sensors based on planar thick-film graphite electrodes and immobilized preparati...
Flow cholinesterase sensors based on planar thick-film graphite electrodes and immobilized preparati...
Cholinesterase sensors based on glassy carbon and planar epoxy graphite electrodes modified with pro...
Cholinesterase sensors based on glassy carbon and planar epoxy graphite electrodes modified with pro...
Cholinesterase sensors based on glassy carbon and planar epoxy graphite electrodes modified with pro...
A cholinesterase potentiometric sensor based on a glassy carbon electrode modified with processible ...
A cholinesterase potentiometric sensor based on a glassy carbon electrode modified with processible ...
A cholinesterase potentiometric sensor based on a glassy carbon electrode modified with processible ...
Comparative investigation of potentiometric cholinesterase sensors based on glassy carbon electrodes...
Comparative investigation of potentiometric cholinesterase sensors based on glassy carbon electrodes...
Comparative investigation of potentiometric cholinesterase sensors based on glassy carbon electrodes...
Comparative investigation of potentiometric cholinesterase sensors based on glassy carbon electrodes...
Cholinesterase sensors based on screen-printed electrodes modified with polyaniline, 7,7′,8,8′-tetra...
Cholinesterase sensors based on screen-printed electrodes modified with polyaniline, 7,7′,8,8′-tetra...
Cholinesterase sensors based on screen-printed electrodes modified with polyaniline, 7,7′,8,8′-tetra...
Flow cholinesterase sensors based on planar thick-film graphite electrodes and immobilized preparati...
Flow cholinesterase sensors based on planar thick-film graphite electrodes and immobilized preparati...
Cholinesterase sensors based on glassy carbon and planar epoxy graphite electrodes modified with pro...
Cholinesterase sensors based on glassy carbon and planar epoxy graphite electrodes modified with pro...
Cholinesterase sensors based on glassy carbon and planar epoxy graphite electrodes modified with pro...
A cholinesterase potentiometric sensor based on a glassy carbon electrode modified with processible ...
A cholinesterase potentiometric sensor based on a glassy carbon electrode modified with processible ...
A cholinesterase potentiometric sensor based on a glassy carbon electrode modified with processible ...
Comparative investigation of potentiometric cholinesterase sensors based on glassy carbon electrodes...
Comparative investigation of potentiometric cholinesterase sensors based on glassy carbon electrodes...
Comparative investigation of potentiometric cholinesterase sensors based on glassy carbon electrodes...
Comparative investigation of potentiometric cholinesterase sensors based on glassy carbon electrodes...
Cholinesterase sensors based on screen-printed electrodes modified with polyaniline, 7,7′,8,8′-tetra...
Cholinesterase sensors based on screen-printed electrodes modified with polyaniline, 7,7′,8,8′-tetra...
Cholinesterase sensors based on screen-printed electrodes modified with polyaniline, 7,7′,8,8′-tetra...
Flow cholinesterase sensors based on planar thick-film graphite electrodes and immobilized preparati...
Flow cholinesterase sensors based on planar thick-film graphite electrodes and immobilized preparati...