The TiCl₄ as a blocking material is adsorbed in the mesoporous TiO₂ electron transfer layer(ETL) of the Perovskite solar cell to prevent the direct contact between the FTO electrode and the photoactive layer(AL), and facilitate the movement of the electrons between TiO₂:TiCl₄ ETL and Perovskite AL to improve the photoelectric conversion efficiency(PCE). The structure of the perovskite solar cell is FTO/TiO₂:TiCl₄/Perovskite(CH₃NH₃PbI₃)/spiro-OMeTAD/Ag. It was investigated that the dipping time of the TiO₂ into TiCl₄ aqueous solution affects on the photoelectric characteristics of the device. By the dipping for 30 minutes, the PCE of the perovskite solar cell with the TiO₂:TiCl₄ ETL was the highest 10.46%, which is 27% higher than the cell with TiO₂ ETL. From SEM, EDS, and XRD characterization on the TiO₂:TiCl₄ ETL and the perovskite AL, it was measured that the decrease of the porosity of the TiO₂ layer, the detection of the Cl component by the TiCl₄ adsorption, the cube-type morphology of perovskite AL, and shift of the PbI₂ peak of the perovskite AL. From these results, it was confirmed that the TiO₂:TiCl₄ ETL and the perovskite AL were formed.