| Effect of fluoride concentration and water content on morphology of titania nanotubes in ethylene glycol solution |
| Paper ID : 2192-UFGNSM13-FULL |
| Authors: |
| Abstract: |
| Titanium dioxide (TiO2) nanotube arrays were prepared at room temperature by electrochemical anodization of a pure titanium foil in electrolyte solutions containing ethylene glycol as a solvent and de-ionized water and ammonium fluoride as additives. Since the morphology and size of TiO2 nanotubes play critical roles in determining their performance, the control of geometrical parameters of the nanotube arrays including length and inner diameter are of great importance. The present research demonstrates the significant effects of fluoride concentration and water content in anodizing electrolyte on formation of nanotubes and their dimensions. Scanning electron microscope investigation shows that nanotube arrays are no longer formed in very low or very high concentration of ammonium fluoride. Also, increase in fluoride concentration causes increase in lengths and inner diameters of the nanotubes. Moreover, it is evident that the maximum nanotube growth rate was achieved in medium amount of water. In addition, it is found that the nanotube inner diameter increases by adding more water to the solution. |
| Keywords: |
| Titania nanotube, Anodizing, Fluoride concentration, Water content |
| Status : Paper Accepted (Poster Presentation) |
© 2010 - 2024 All Rights Reserved. Powered by sinaweb.