Ceramic Micro-Particles Synthesised using Emulsion and Sol–Gel Technology: An Investigation into the Controlled Release of Encapsulants and the Tailoring of Micro-Particle Size

Autor: Bush, Alexandra J., Beyer, Renée, Trautman, Rachael, Barbé, Christophe J., Bartlett, John R.
Zdroj: Journal of Sol-Gel Science and Technology; December 2004, Vol. 32 Issue: 1-3 p85-90, 6p
Abstrakt: Abstract Controlled release technologies have many applications in such diverse fields as the pharmaceutical, agricultural, cosmetic and food industries, where tailored release rates and protection of the active molecule for delivery at a specific site or time are advantageous. Silica microspheres, with controlled diameters of 10–50 µ m and containing Orange II dye as a model encapsulant, have been synthesised by combining water-in-oil (w/o) emulsion technology with sol–gel chemistry. The average particle size may be controlled by the microemulsion parameters, including the surfactant and solvent concentrations, and by the sol–gel processing parameters, particularly water-to-silicon alkoxide ratio, pH, temperature, ageing and mixing conditions. Physical properties of the SiO2 microspheres, which modulate the release rates of the encapsulated molecule (including pore size and tortuosity), are also controlled by the sol–gel process parameters.
Databáze: Supplemental Index