Abstract

Abstract BACKGROUND In this study, highly ordered titanium dioxide ( TiO 2 ) nanotube arrays with tunable inner‐diameter and morphology were synthesized by an anodizing method from titanium (Ti) foil by optimizing different preparation parameters, and acyclovir was degraded to test the photoelectrocatalytic activity of prepared nanotubes in a thin layer reactor. RESULTS The results indicated that anodization time, the concentrations of NH 4 F and HAc had significant effect on the surface morphology and inner‐diameter of TiO 2 nanotubes. Various morphologies including honeycomb films and nanotube arrays were obtained under given conditions. Photoelectrocatalysis showed higher degradation efficiency than that of photocatalysis or electrolysis due to TiO 2 nanotubes regular nanotubular effectively reducing the recombination of photo‐generated electron–hole pairs. The photoelectrochemical responses and degradation efficiencies of acyclovir were well related to the TiO 2 crystallinity and morphology of TiO 2 nanotube photoanodes. Regular nanotube array photoanodes displayed better crystallinity, higher photoelectrochemical response and higher photoelectrocatalytic activity than those of nanopore photoanodes. The best TiO 2 nanotube photoanode was prepared at 30 V for 24 h in the ethylene glycol solution containing 0.20 mol L −1 NH 4 F and 0.50 mol L −1 HAc . CONCLUSION TiO 2 nanotube photoelectrocatalysis technology is an effective way to decontaminate organic contaminants in water. © 2012 Society of Chemical Industry