Abstract
We introduced a new approach to deposit perovskite layer with no need for dissolving perovskite precursors. Deposition of Solution-free perovskite (SFP) layer is a key method for deposition of perovskite layer on the hole or electron transport layers that are strongly sensitive to perovskite precursors. Using deposition of SFP layer in the perovskite solar cells would extend possibility of using many electron and hole transport materials in both normal and invert architectures of perovskite solar cells. In the present work, we synthesized crystalline perovskite powder followed by successful deposition on TiO2 and cuprous iodide as the non-sensitve and sensitive charge transport layers to PbI2 and CH3NH3I solution in DMF. The post compressing step enhanced the efficiency of the devices by increasing the interface area between perovskite and charge transport layers. The 9.07% and 7.71% cell efficiencies of the device prepared by SFP layer was achieved in respective normal (using TiO2 as a deposition substrate) and inverted structure (using CuI as deposition substrate) of perovskite solar cell. This method can be efficient in large-scale and low cost fabrication of new generation perovskite solar cells.
Highlights
Organometal halide perovskite solar cells attracted much attention within the last five years because of their interesting photovoltaic properties
Fabrication of normal and invert perovskite solar cells by sensitive electron transfer materials (ETMs) or hole transfer materials (HTMs) such as cuprous iodide, there are some limitations resulting in corrosion during deposition of perovskite on the carrier extraction layers
We introduced a new perovskite deposition approach that is quite appropriate and noncorrosive on sensitive HTM and ETM layers
Summary
We introduced a new approach to deposit perovskite layer with no need for dissolving perovskite precursors. The 9.07% and 7.71% cell efficiencies of the device prepared by SFP layer was achieved in respective normal (using TiO2 as a deposition substrate) and inverted structure (using CuI as deposition substrate) of perovskite solar cell This method can be efficient in large-scale and low cost fabrication of new generation perovskite solar cells. In. fabrication of normal and invert perovskite solar cells by sensitive electron transfer materials (ETMs) or hole transfer materials (HTMs) such as cuprous iodide, there are some limitations resulting in corrosion during deposition of perovskite on the carrier extraction layers. According to the fact that spray coating is a potential deposition method for large area and continuous deposition, we fabricated the perovskite solar cell devices by spray coating of SFP in various spray coating passes for reaching the optimum surface coverage of perovskite layer
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