Publikation Detail

Abstract:

Rutile TiO₂ nanorod arrays (NRAs) are applicable in various prospective technologies. Hydrothermalmethods present a simple technique to fabricate such NRAs. In this report, we present the fabrication of seed layers for the hydrothermal growth of rutile TiO₂ nanorods via sputter deposition, electron-beam evaporation, and sol-gel method and study the influence of each on the growth behavior. To satisfy the requirements of numerous applications, p-type silicon, platinum, levitating carbon membranes, a template made of polystyrene spheres, and commercial fluorine tin oxide (FTO) were employed as sub-strates. We document the structural properties of the TiO₂ seed layers and describe the relationshipbetween the characteristics of the seed crystals, the growth evolution, and the appearance of as-grown nanorods. Various growth stages of rutile TiO₂ nanorods are compared depending on whether they are grown on polycrystalline TiO₂ or FTO seed layers. In both cases, a homogenous TiO₂ bottom layer is formed at the seed layer/substrate interface, which is essential for electronic applications such as hybridsolar cells. Detached NRAs illustrate the effect of rutile FTO and TiO₂ on the porosity of this bottom layer. Further details about the formation process of this layer are obtained from the growth on confined seedlayers fabricated by electron-beam lithography.