In this study, we developed a series of semiconductor electrodes of DSSC(dye-sensitized solar cells) by using the ultra thin AAO(anodic alumina oxide) nanoporous membranes. Titanium adhesive layer and oxygen plasma surface treatment are added to the coating process, to enhance the adhesion between the aluminum and ITO layers. We also studied the influence of the AAO membrane surface morphology on different anodic oxidation treatment condition. In the fabricating of the electrodes, titanium dioxide powder is filled into AAO membranes by electrophoretic deposition method. The study showed that titanium layer did enhance the adhesion between ITO and AAO layer, and the oxygen plasma surface treatment further enhance its adhesion again. The anodic oxidation treatment cannot be done without these two processes. On the other hand, the pore density of the anodic alumina membranes increases with the anodic voltage. Compared with the thicker aluminum films, however, the range of the voltage that can successfully produce a porous layer is much narrow. Finally, we successfully fabricate DSSC with nanoporous AAO electrode, with the conversion efficiency of 0.028%.