Perovskite solar cells have an outstanding energy conversion efficiency and hence, they can be utilized for photo sensing applications. The lead halide perovskite materials are sensitive to x-rays and γ- rays and therefore, can be used for the development of the x-rays and γ- rays sensors. For these applications, a material thickness of 1 mm is required because of its absorption coefficient. In solar cell applications, a material thickness of only 1 mm is required, so the fabrication methods for 1 mm material size are required to be developed. To produce 1 mm thickness pellet, we used a heat press equipment. First, we prepared a lead-halide perovskite (CH₃NH₃PbI₃) single crystal from 2 to 3 mm in size by using the so-called inverse temperature recrystallization. After that the crystals were placed into a dice of 7 mm diameter and then the weight of the crystals are measured. Further, the dice is pressed with a load of 2 kN using a heat press equipment with the top and bottom plates are heated at 100 ^oC. After 10 minutes, the dice was set out of the heat press equipment and a perovskite pellet is taken out from the dice. After measuring the thickness of the pellet, the density was calculated, and it was compared with the expected density of 4.2 g/cm³ of CH₃NH₃PbI₃.
This pellet was put by partially resolving with solvent on the FTO glass covered with TiO₂ layer of a certain thickness from 10 nm to 100 nm and a gold was deposited on the pellet. Finally, the current-voltage characteristics are measured, and they are observed to be consistent with that of a semi-conducting material.