화학공학소재연구정보센터
Chemical Engineering Research & Design, Vol.113, 250-255, 2016
Design of nano-needle titania and surface roughness of its film by processing sol-gel reaction and supercritical drying
Nano-needle titania was fabricated from sol-gel reaction using titanium butoxide (TBO) as titania precursor and acetic acid (HAc). The wet gel after the sol-gel reaction was dried in supercritical carbon dioxide at 313K and 10.4 MPa for the production of titania powder. The minor-axis of the nano-needles were measured by a scanning electron microscope and evaluated with respect to the effect of the initial molar ratios of HAc to TBO and reaction time in the sol-gel reaction process. A higher molar ratio of HAc in the sol-gel reaction results in a smaller minor axis of the nano-needle. The minor-axis of the titania nano needle increases with increasing sol-gel reaction time. From these results, the minor-axis size of titania nano-needle could be controlled by the molar ratios of HAc to TBO and reaction time in the sol-gel reaction. The nano-needle titania was also applied to the fabrication of a thin film by a casting and solvent evaporation method. The surface roughness of the titania thin film from the nano-needle with various minor-axis was evaluated and compared with that from the nano-sphere titania. A smaller minor-axis of the nano-needle titania results in a larger roughness of the surface on the thin film. It is found that the roughness of the nano-needle film was larger than that using the nano-sphere. (C) 2016 Institution of Chemical Engineers. Published by Elsevier B.V. All rights reserved.