Electrochemical oxidation of carbamazepine in water using enhanced blue TiO 2 nanotube arrays anode on porous titanium substrate.

In this study, a blue TiO nanotube arrays anode on porous titanium substrate (Ti-porous/blue TiO NTA) was successfully fabricated by facile anodization and in situ reduction, and was used to investigate the electrochemical oxidation of carbamazepine (CBZ) in aqueous solution. The surface morphology and crystalline phase of the fabricated anode were characterized by SEM, XRD, Raman spectroscopy and XPS, and the electrochemical analysis confirmed that blue TiO NTA on Ti-porous substrate had larger electroactive surface area, better electrochemical performance and higher ⋅OH generation ability than that on Ti-plate substrate. The removal efficiency of 20 mg L CBZ in 0.05 M NaSO solution reached 99.75% at 8 mA cm after 60 min electrochemical oxidation, and the rate constant was 0.101 min with low energy consumption. EPR analysis and free radical sacrificing experiments showed that ⋅OH played a key role in the electrochemical oxidation. The possible oxidation pathways of CBZ were proposed through the identification of degradation products, and the main reactions may involve deamidization, oxidization, hydroxylation and ring-opening. Compared with Ti-plate/blue TiO NTA anode, Ti-porous/blue TiO NTA anode displayed excellent stability and reusability, and is promising to be used in the electrochemical oxidation of CBZ in wastewater.