Author/Authors :
SREEKANTAN, SRIMALA Universiti Sains Malaysia - Engineering Campus - School of Materials and Mineral Resources Engineering, Malaysia , ROSHASNORLYZA, HAZAN Universiti Sains Malaysia - Engineering Campus - School of Materials and Mineral Resources Engineering, Malaysia , KHAIRUL ARIFAH, SAHARUDIN Universiti Sains Malaysia - Engineering Campus - School of Materials and Mineral Resources Engineering, Malaysia , LAI CHIN, WEI Universiti Sains Malaysia - Engineering Campus - School of Materials and Mineral Resources Engineering, Malaysia , Ishak, Mat Universiti Sains Malaysia - Advanced Medical and Dental Institute, Malaysia
Abstract :
Titanium oxide (TiO2) nanotubes were successfully formed by anodization of pure titanium foil in a standard two-electrode bath consisting of ethylene glycol solution containing 5 wt% NH4F. The pH of the solution was ،« 7 and the anodization voltage was 60 V. It was observed that such anodization condition results in ordered arrays of TiO2 nanotubes with smooth surface and a very high aspect ratio. It was observed that a minimum of 1 wt % water addition was required to form well ordered TiO2 nanotubes with length of approximately 18.5 μm. As-anodized sample, the self-organized TiO2 nanotubes have amorphous structure and annealing at 500oC of the nanotubes promote formation of anatase and rutile phase. Photocatalytic activity of well ordered TiO2 nanotubes with two different lengths was evaluated by measuring the degradation of methyl orange (MO). The elaboration of this observation is described in detail in this paper.
Keywords :
Anodization , ethylene glycol , phase transformation , TiO2 nanotubes
