Improved synthesis process of thin films by vapour deposition

the preparation of uniform thin films without the use of solvents is crucial for a wide range of applications, ranging from coatings to semiconductor devices. Typical semiconductor-based devices are, transistors, light emitting diodes and solar cells. In order to prepare high performance coatings, LEDs and solar cells, homogeneous films are needed. Processing methods to prepare perovskite thin films are via solution-based processes that need to use coordinating solvents to dissolve the inorganic precursors salts and via vacuum-based processes that are solvent free processes and widely used in industrial application. Both methods have limitations. Coating from solutions due to the need to use coordinating solvents to dissolve the inorganic precursors salts. These solvents, such as dimethylformamide (DMF) or dimethylsulfoxide (DMSO) have a high boiling point which makes it difficult to completely remove them from the finished film. The development of perovskites with vacuum-based technologies has not been straightforward. This is largely due to the organic compounds involved in the process (e.g. methylammonium (MA) and formamidinium (FA) salts), which are needed to give the highest efficiency devices. Prolonged heating of these organic salts close to their sublimation temperatures leads to their decomposition. In an industrial tool, this would severely limit the production yield and make the process uneconomical. The complexity of perovskite compositions, and the number of compounds found in high efficiency cells, has increased over the last years. Controlling these sublimation sources reliably over long durations of time is very challenging. Thus, there is still a need to find a production method of thin layers of perovskite suitable for industrial processes.