In this work, the morphological features of polycrystalline films of hybrid perovskites MA_xMEA_1−xPbI₃ formed by a single-stage centrifugation method from DMF and DMSO solutions (4:1) have been investigated. The results of the studies showed that an increase in the proportion of monoethanolammonium in MA_xMEA_1−xPbI₃ led not only to a change in the absorption spectra and an increase in the interplanar distances of the crystal lattice, but also to a significant change in the morphology of the films from elongated split crystallites to a uniform coating of nanocrystallites. An increase in the proportion of monoethanolammonium iodide in the solution also improved the wettability of solutions and the continuity of the coating of substrates with hybrid perovskite MA_xMEA_1−xPbI₃ without additional surface activation processes. The increased band gap of MA_xMEA_1−xPbI₃ compared to MAPbI₃ makes these hybrid perovskites attractive for use in tandem solar cells.