Single bath electrodeposition of samarium oxide/zinc oxide nanostructured films with intense, broad luminescence

Electrochemical deposition from a solution containing zinc and samarium ions, leads to a samarium oxide/zinc oxide sandwich-like structure with an intense, visible, broad luminescence peak centered at 550 nm. The successive deposition of the two materials is related to the bath composition and overpotential, taking place for values higher than a certain threshold. The zinc oxide film, first one to be deposited, presents typical hexagonal prism morphology while samaria coating films present a porous, nanowall like structure. The photoluminescence emission is at least 10 times more intense than in the case of typical electrodeposited ZnO films of similar thickness and does not appear in Sm2O3 films electrodeposited from solutions containing only Sm ions. Samples prepared in different conditions were characterized from the point of view of composition, structure, morphology and optical properties. The characteristics of the emission spectra of the films make them interesting for solid state lightning applications.

Graphical abstractElectrochemical deposition from a solution containing both zinc and samarium ions leads to a samarium oxide zinc oxide sandwich-like structure with an intense, visible broad luminescence peak centered at 550 nm.Figure optionsDownload full-size imageDownload as PowerPoint slide