A Triple-Electrode Based Dual-Biosensor System Utilizing Track-Etched Microporous Membrane Electrodes for the Simultaneous Determination of l-Lactate and d-Glucose

A new triple-electrode system was developed for the simultaneous determination of l-lactate and d-glucose by using track-etched microporous membrane electrodes, which enabled efficient electrolysis as electroactive substances passed through the electrode. The proposed biosensor was fabricated by alt...

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Published inBulletin of the Chemical Society of Japan Vol. 90; no. 11; pp. 1211 - 1216
Main Authors Mizuguchi, Hitoshi, Sasaki, Keiko, Ichinose, Hirokazu, Seino, Shota, Sakurai, Jun, Iiyama, Masamitsu, Kijima, Tatsuro, Tachibana, Kazuhiro, Nishina, Tatsuo, Takayanagi, Toshio, Shida, Junichi
Format Journal Article
LanguageEnglish
Published Tokyo The Chemical Society of Japan 2017
Chemical Society of Japan
Subjects
Ascorbic acid
Biosensors
Catalysis
Electrodes
Electrolysis
Enzymes
Glucose
Hydrogen peroxide
Peroxidase
Reactors
Uric acid
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Abstract A new triple-electrode system was developed for the simultaneous determination of l-lactate and d-glucose by using track-etched microporous membrane electrodes, which enabled efficient electrolysis as electroactive substances passed through the electrode. The proposed biosensor was fabricated by alternate stacking of the electrodes and immobilized enzyme reactors along the flow direction of the sample solution. When the sample solution containing l-lactate and d-glucose flowed into the proposed biosensor, hydrogen peroxide was produced by each enzymatic reaction and detected individually by anodization at each detector-electrode positioned downstream of each enzyme reactor. The interfering substances, such as l-ascorbic acid and uric acid, were electrolyzed completely at the pre-reactor electrode that was positioned upstream of the enzyme reactors. As a result, the simultaneous detection of l-lactate and d-glucose was achieved with no other catalytic material such as peroxidase or an electron mediator in the presence of the interferents at physiological concentrations in human blood.
AbstractList A new triple-electrode system was developed for the simultaneous determination of l-lactate and d-glucose by using track-etched microporous membrane electrodes, which enabled efficient electrolysis as electroactive substances passed through the electrode. The proposed biosensor was fabricated by alternate stacking of the electrodes and immobilized enzyme reactors along the flow direction of the sample solution. When the sample solution containing l-lactate and d-glucose flowed into the proposed biosensor, hydrogen peroxide was produced by each enzymatic reaction and detected individually by anodization at each detector-electrode positioned downstream of each enzyme reactor. The interfering substances, such as l-ascorbic acid and uric acid, were electrolyzed completely at the pre-reactor electrode that was positioned upstream of the enzyme reactors. As a result, the simultaneous detection of l-lactate and d-glucose was achieved with no other catalytic material such as peroxidase or an electron mediator in the presence of the interferents at physiological concentrations in human blood.
Author Tachibana, Kazuhiro
Nishina, Tatsuo
Kijima, Tatsuro
Takayanagi, Toshio
Ichinose, Hirokazu
Seino, Shota
Sakurai, Jun
Mizuguchi, Hitoshi
Sasaki, Keiko
Iiyama, Masamitsu
Shida, Junichi
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Snippet A new triple-electrode system was developed for the simultaneous determination of l-lactate and d-glucose by using track-etched microporous membrane...
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SubjectTerms Ascorbic acid
Biosensors
Catalysis
Electrodes
Electrolysis
Enzymes
Glucose
Hydrogen peroxide
Peroxidase
Reactors
Uric acid
Title A Triple-Electrode Based Dual-Biosensor System Utilizing Track-Etched Microporous Membrane Electrodes for the Simultaneous Determination of l-Lactate and d-Glucose
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