Electrophoretic impregnation of porous anodic aluminum oxide film by silica nanoparticles

Abstract

In this paper, it is proposed to study the deposition of nanoparticles by electrophoretic deposition (EPD) inside a porous anodic aluminum oxide film. Despite the presence of a highly resistive barrier layer at the metal-anodic film interface, porous anodic films on AA 1050A were successfully filled by 16-nm, surface modified silica particles. During this study it was shown that both the colloidal suspension conductivity and the applied electric field drive the penetration into the porous film. FEG-SEM observations showed that large (130-nm diameter), linear pores of 10μm in length can be completely filled in 1min. These results attest that porous anodic films can be efficiently filled with nanoparticles by EPD despite the presence of the barrier layer.