Electrochemical Profile Degradation of Amino Acid by Flow System using TiO2/Ti Nanotubes Electrode

The new method of electrochemical degradation of Amino Acid by flow system using TiO2/Ti electrode had been carried out. The electrode was synthesized by anodic oxidation processes and analyzed its electrochemical profile degradation. The development of the flow system for determining the profile and photocurrent response of amino acid, i.e phenylalanine, glycine, and glutamine were performed by using Linear Sweep Voltammetry (LSV), Multi-Pulse Amperometry (MPA) and Cyclic Voltammetry (CV) techniques. The optimum pH measurement of phenylalanine, glycine, and glutamine were 8.54, 7.80 and 8.53, respectively. Data on photocurrent response showed the phenylalanine, glycine and glutamine were proportional to the increasing concentration. The photocurrent response with the addition of electrolyte on the analyte showed that the photocurrent response was higher than the (Ceq ) over bar value of each amino acid (196.9825 mu A phenylalanine; 130.3333 mu A glycine; 194.0193 mu A glutamine) whereas without using electrolyte of each amino acid: 84.56667 mu A phenylalanine; 60.55863 mu A glycine; 91.79087 mu A glutamine. This system design is potentially developed for chemical oxygen demand (COD) sensor.