3D SILICON-OXIDE NANOSTRUCTURES - FROM NANOFLOWERS TO RADIOLARIA

Novel flower-like nanostructures consisting of silicon oxide nanofiber s, radially attached to a single catalytic particle, were generated by solid-solid and gas-solid reactions under a temperature gradient. In this process, a mixture of SIC and Co powders, deposited on silica sub strates and heated under an Ar/CO atmosphere at ca. 1500 degrees C, pr oduced material with unusual three-dimensional (3D) networks of nanofi bers of uniform diameter (ca. 20-120 nn) and length (ca. 10-250 mu m). Scanning electron microscopy (SEM), high resolution transmission elec tron microscopy (HRTEM), X-ray powder diffraction and energy dispersiv e X-ray (EDX) analyses reveal that the nanofibres are amorphous and co nsist only of silicon oxide, generated from the reaction of CO with SI G. Nanostructure formation is catalyzed by Co particles, which act as nucleation sites and templates for 3D growth. Experiments using Si3N4 and Si in conjunction with other catalysts (e.g. Fe, Ni and CoO) yield similar results and confirm that the resulting SiOx fibres display vi rtually unique and remarkable radial growth starting from single metal particles. These structures exhibit morphologies comparable to radiol arian and diatom skeletons and may provide insight into the formation of microbiological systems.