Linamarin sensors: amperometric sensing of linamarin using linamarase and glucose oxidase

Glucose oxidase was covalently immobilised on the surface of copolymers of methyl and glycidyl methacrylates. The enzyme modified polymers were deposited from dichloromethane solutions onto platinum electrodes to form an amperometric glucose sensor based on the electrochemical measurement of hydroge

A miniaturized glucose biosensor in which glucose oxidase (GOD) and poly(p-phenylenediamine) (poly-PPD) were coimmobilized at the surface of a platinum microdisk electrode was developed and used successfully for amperometric determination of glucose. The performance of sensors prepared at different

A glassy carbon electrode (GCE) modified with palladium provides excellent electrocatalytic oxidation of hydrogen peroxide. When the electrolyte contains palladium chloride and glucose oxidase, the GCE can be modified by electrochemical codeposition at a given potential . The resulting modified surf

A flow-injection system with anodic aniperometric detection for glucose determination in human blood serum samples was optimized by a comparison of various arrangements of enzyme immobilization and the elimination o f interferences. The best results were obtained using a compact membrane biosensor i