In this study, a mesoporous titanium oxide powder, which was prepared using titanium iso-propoxide(TTIP) as the precursor, was treated by the hydrolysis of chloride titanium. The resulting film was used as the working electrode in dye-sensitized solar cells. We discussed the difference in photovoltaic efficiency between TiCl4 treated and non-treated electrodes. Experimental results show that the TiCl4 hydrolysis improves the interconnection between TiO2 nanoparticles in the electrode. The main factors affecting the solar cell efficiency are the solution concentration, hydrolysis temperature, and reaction time we optimized these hydrolysis parameters to enhance the cell efficiency. The optimum hydrolysis conditions are as follows: solution concentration: 0.04 M, the temperature: 70 C, and the reation time: 30 min. According to, electrochemical impedance analysis, the TiCl4 treatment can enhance the electron collection efficiency of the DSSC, resulting in an increased short-circuit current density and thus an increased efficiency.