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An Electrochemical Robotic System for the Optimization of Amperometric Glucose Biosensors Based on a Library of Cathodic Electrodeposition Paints

Sabine Reiter, Dirk Ruhlig, Bertrand Ngounou, Sebastian Neugebauer, Sandra Janiak, Aiste Vilkanauskyte, Thomas Erichsen, Wolfgang Schuhmann

Year
2004
Citations
36

Abstract

Abstract Summary: A library of 148 cathodic electrodeposition paints was synthesized and the properties of related amperometric glucose biosensors were evaluated. For this a novel automatic electrochemical robotic system was designed. The automatic biosensor fabrication and characterization sequence involves the electrochemically induced precipitation of the cathodic paint on the electrode surface in the presence of glucose oxidase, the conditioning of the obtained polymer layer, the recording of a glucose calibration graph and the quantitative dissolution of the polymer film and cleaning of the electrode surface. Schematic representation of the developed electrochemical robotic system for electrochemical screening in microtiter plates. magnified image Schematic representation of the developed electrochemical robotic system for electrochemical screening in microtiter plates.

Keywords

AmperometryBiosensorGlucose oxidaseSchematicElectrochemistryMaterials scienceElectrodeCathodic protectionNanotechnologyPolymer

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