Design of Aerosol Coating Reactors: Precursor Injection

Particles are coated with thin shells to facilitate their processing and incorporation into liquid or solid matrices without altering core particle properties (coloristic, magnetic, etc.). Here, computational fluid and particle dynamics are combined to investigate the geometry of an aerosol reactor for continuous coating of freshly made titanium dioxide core nanoparticles with nanothin silica shells by injection of hexamethyldisiloxane (HMDSO) vapor downstream of TiO(2) particle formation. The focus is on the influence of HMDSO vapor jet number and direction, in terms of azimuth and inclination jet angles, on process temperature and coated particle characteristics (shell thickness and fraction of uncoated particles). Rapid and homogeneous mixing of core particle aerosol and coating precursor vapor facilitates synthesis of core-shell nanoparticles with uniform shell thickness and high coating efficiency (minimal uncoated core and free coating particles).