ELECTROCHEMICALLY PREPARED GLUCOSE BIOSENSORS - KINETIC AND FARADAIC PROCESSES INVOLVING ASCORBIC-ACID AND ROLE OF THE ELECTROPOLYMERIZED FILM IN PREVENTING ELECTRODE-FOULING
D. Centonze et al., ELECTROCHEMICALLY PREPARED GLUCOSE BIOSENSORS - KINETIC AND FARADAIC PROCESSES INVOLVING ASCORBIC-ACID AND ROLE OF THE ELECTROPOLYMERIZED FILM IN PREVENTING ELECTRODE-FOULING, Fresenius' journal of analytical chemistry, 349(7), 1994, pp. 497-501
The influence is discussed of ascorbic acid (AA) on the response of a
glucose biosensor based on glucose oxidase immobilized in electropolym
erized poly(o-phenylenediamine) (PPD) or overoxidized poly(pyrrole) (o
xPPy) films on a Pt electrode. The kinetics of the homogeneous reactio
n between AA and H2O2 has been investigated by two independent methods
and found to be too slow to influence the response of typical glucose
biosensors. Therefore, the decrease in the sensor response, observabl
e when working in batch under typical experimental conditions, can in
no way be ascribed to a depletion of H2O2, which is produced in the bi
ocatalytic cycle via the homogeneous reaction with AA. While the purel
y additive Faradaic interference can practically be nullified by both
entrapping membranes, electrode fouling by electro-oxidation products
of AA (responsible for the observed decrease in glucose sensitivity) m
ight still represent a problem when working with PPD based biosensors.
In this respect the permeability characteristics of the film markedly
influence the magnitude of the observed phenomena. The oxPPy film ach
ieves the goal of completely eliminating ascorbate without blocking th
e access of glucose to the immobilized enzyme.