Growth and transformation of TiO2 crystallites in aerosol reactor

Abstract

Rate process concerning the formation of TiO₂ fine crystalline particles by the gas‐phase reaction of TiCl₄ and O₂ are studied using aerosol reactors. Chemical reaction of TiCl₄, sintering of particles, mixing of reactants, and transformation from anatase to rutile are evaluated as the system parameters of the simulation model proposed. The crystallite size in the range of 55–65 nm at 1,273 K is predicted well by a model that assumes the maximum fusible particle size, 15 nm in this case.The defect concentration in the TiO₂ crystallites strongly affects the transformation rate, and anatase particles produced at 1,173 K are transformed to rutile more rapidly than those produced at 1,373 K. The transformation is simulated quantitatively by the model with the coordinates for elapsed time, particle size and rutile fraction. The model can be applied to such particle production processes as collision, sintering and crystal transformation occurring simultaneously.