Rare earth doped SnO2nanoscaled powders and coatings: Enhanced photoluminescence in water and waveguiding properties

Luminescent Eu3+and Er3+doped SnO2powders have been prepared by Sn4+hydrolysis followed by a controlled growth reaction using a particle's surface modifier in order to avoid particles aggregation. The powders so obtained doped with up to 2 mol% rare earth ions are fully redispersable in water at pH>8 and present the cassiterite structure. Particles size range from 3 to 10 nm as determined by Photon Correlation Spectroscopy. Rare earth ions were found to be essentially incorporated into the cassiterite structure, substituting for Sn4+, for doping concentration smaller than 0.05 mol%. For higher concentration they are also located at the particles surface. The presence of Eu3+ions at the surface of the particles hinder their growth and has therefore allowed the preparation of new materials consisting of water redispersable powders coated with Eu3+-βdiketonate complexes. Enhanced UV excited photoluminescence was observed in water. SnO2single layers with thickness up to 200 nm and multilayer coatings were spin coated on borosilicate glass substrates from the colloidal suspensions. Waveguiding properties were evaluated by the prism coupling technique. For a 0.3μm planar waveguide single propagating mode was observed withattenuation coefficient of 3.5 dB/cm at 632.8 nm.