Amperometric simultaneous sensing system for d-glucose and l-lactate based on enzyme-modified bilayer electrodes |
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Authors: | Naruhide Sato Hirokazu Okuma |
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Affiliation: | a Laboratory of Bio-Functional Materials Sciences, Graduated School of Life Sciences, Toyo University, Izumino, Itakura, Ora, Gunma 374-0193, Japan b Bio-Nano Electronics Research Center, Toyo University, Japan |
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Abstract: | An amperometric biosensor system which uses screen-printed electrodes to simultaneously detect d-glucose and l-lactate has been developed and applied for simple and rapid determination of d-glucose and l-lactate levels in lactic fermenting beverages. The system was constructed from three-dimensionally layered electrodes. Taking into consideration the effects of easily oxidized substances contained in the samples, ferricyanide ions, which are electrochemically oxidized at a lower voltage, were chosen as a mediator. A linear relationship between steady-state current and concentration was found over a range of 1-100 mM (d-glucose) and 1-50 mM (l-lactate); the variation coefficients were 1.43% (n = 10) and 3.50% (n = 10) for the d-glucose and l-lactate sensors, respectively. When applied to lactic fermenting beverages, there was good agreement between the results obtained by the proposed sensing system and those obtained by the HPLC method. Using the proposed method, assays were completed within 5 min. |
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Keywords: | Screen-printed electrode Biosensor Simultaneous detection smallcaps" >d-Glucose smallcaps" >l-Lactate Lactic fermenting beverage |
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