Electron Transfer Processes at Aryl-Modified Glassy Carbon Electrode

## Abstract In this work, the capability of carbon nanofibers to be used for the design of catalytic electrochemical biosensors is demonstrated. The direct electrochemistry of NADH was studied at a glassy carbon electrode modified using carbon nanofibers. A decrease of the oxidation potential of NA

## Abstract A glassy carbon electrode modified with electrodeposited cysteic acid is proposed for the determination of theophylline. Estimation of the linear range, calibration function and limit of detection, as well as determination in real samples such as medication tablets were performed.

The electrocatalytic oxidation of hydrazine has been studied on glassy carbon electrodes modified by electrodeposition of iron(III)hexacyanoferrat(II) (Prussian Blue PB), by using cyclic voltammetry and the rotating disc technique. The oxidation of hydrazine to nitrogen occurs at the rising part of

## Abstract A highly sensitive and fast responding sensor for the determination of morphine is described. The multiwall carbon nanotubes immobilize on preheated glassy carbon electrode (5 min at 50 °C) by gently rubbing of electrode surface on a filter paper supporting the carbon nanotubes.The resu