A two-step anodization process is emoployed to fabricate a self-organized nanoporous anodic aluminum oxide (AAO) on aluminum film. The resulting AAO structure displays adjustable thickness and pore size contingent on the processing parameters. For Electrowetting on Dielectric(EWOD) testing, the as-prepared AAOs with different morphologies are first surface-modified by fluoroalkysilane（FAS-17）to render desirable hydrophobicity. Subsequently, an AC electrical field is imposed across a droplet and the AAO sample in which the solid/liquid interface experiences a dramatic change in charge density, resulting in the switching of wettability from hrdrophobic state to hydrophilic one. We investigate the EWOD effects on a variety of AAO samples with various thickness and pore diameters. To understand the wettability transition, a capillary-pressure balance model is proposed to estimate the depth of water penetrating into the AAO pore channels.