Abstract
To construct novel amperometric sensors for the detection of hydrogen peroxide and pyruvate, peroxidase and pyruvate oxidase were immobilized in self-supporting nanoporous alumina membranes those made by anodic oxidation. Pyruvate oxidase and other enzymes were enclosed in poly(carbamoylsulfonate) hydrogel and sucked into the nanoporous alumina structure before polymerization. The alumina membranes were investigated by scanning electron microscopy before and after the enzyme immobilization. In an amperometric flow detector cell, pyruvate and hydrogen peroxide were detected under flow injection analysis conditions in concentration ranges from 1 microM to 100 microM and 5 microM to 500 microM, respectively. The achieved operational stability showed that alumina membranes can be used to construct enzyme-modified electrodes.
Publication types
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Comparative Study
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Evaluation Study
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Research Support, Non-U.S. Gov't
MeSH terms
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Aluminum Oxide / chemical synthesis
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Aluminum Oxide / chemistry*
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Biosensing Techniques / instrumentation*
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Biosensing Techniques / methods
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Crystallization / methods
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Electrochemistry / instrumentation
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Electrochemistry / methods
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Enzymes, Immobilized / chemistry
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Equipment Design
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Equipment Failure Analysis
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Hydrogen Peroxide / analysis*
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Membranes, Artificial*
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Microchemistry / instrumentation
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Microchemistry / methods
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Nanotechnology / instrumentation*
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Nanotechnology / methods
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Peroxidase / chemistry*
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Porosity
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Pyruvate Oxidase / chemistry*
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Pyruvic Acid / analysis*
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Reproducibility of Results
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Sensitivity and Specificity
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Surface Properties
Substances
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Enzymes, Immobilized
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Membranes, Artificial
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Pyruvic Acid
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Hydrogen Peroxide
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Peroxidase
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Pyruvate Oxidase
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Aluminum Oxide