Influences of Surface Charge, Size, and Concentration of Colloidal Nanoparticles on Fabrication of Self-Organized Porous Silica in Film and Particle Forms

Studies on preparation of porous material have attracted tremendous attention because existence of pores can provide material with excellent performances. However, current preparation reports described successful production of porous material with only partial information on charges, interactions, sizes, and compositions of the template and host materials. In this report, influences of self assembly parameters (i.e, surface charge, size, and concentration of colloidal nanoparticles) on self organized porous material fabrication were investigated. Silica nanoparticles (as a host material) and polystyrene (PS) spheres (as a template) were combined to produce self-assembly porous materials in film and particle forms. The experimental results showed that the porous structure and pore size were controllable and strongly depended on the self-assembly parameters Materials containing highly ordered pores were effectively created only when process parameters fall within appropriate conditions (i.e., PS surface charge <= -30 mV; silica-to-PS size ratio <= 0.078; and silica-to-PS mass ratio of about 0.50). The investigation of the self-assembly parameter landscape was also completed using geometric considerations Because optimization of these parameters provides significant information in regard to practical uses, results of this report could be relevant to other functional properties.