Formation of the negatively charged colloidal zirconia species i.e. [ZrO]⁻ at the cathode surface and low adhesion of the hydroxide deposit to its surface are common problems in the cathodic electrodeposition of zirconia. Deposition experiments with the direct current mode led to the total spallation of the deposit from the cathode surface and no deposit was obtained in practice. In order to minimize these problems, pulse current deposition was applied in the electrodeposition of ZrO₂. The results showed that the control of the base electrogeneration and deposit formation on the cathode surface is achievable using the pulse current mode. The XRD analysis and SEM observations revealed that the crystal structure, phase content and surface morphology of the prepared zirconia powders are significantly affected by the variation of t_off or t_on/t_off ratio. This work clearly showed that the pulse current electrodeposition can be introduced as an alternative route in the ZrO₂ cathodic electrodeposition and preparation of its nanostructured powder.