Here, we briefly introduce the process to solve those problems when fabrication OIHPs by adequately regulating the evaporation rate of solvent during annealing and doping Ge forming mixture of Pb-Ge forming double B site cations in organic-based perovskites. It was found out that mixed cation/halide perovskites are likely to be more sensitive to the evaporation rate of solvents than single cation/halide perovskites such as MAPbI₃ and FAPbI₃. The phenomenon indicates that the extra care should be taken into account when fabricating mixed cation/halide perovskites, otherwise, the performances would be incoherent for different batches. The adequate control of solvents for quadrupole cation/halide perovskites consisting of Rb,Cs,MA,FA in A site cations led to high PCE, recording 21.3%. Also, the large area cells (1 cm²) showed high PCE, recording 18.27% of PCE certified from the measurement of maximum power point tracking (MPPT) in National Institute of Advanced Industrial Science and Technology (AIST). Further, we tried to dope Ge in Pb-based mixed cation/halide perovskites to improve electronic stability. The solubility problems by adding Ge in the precursor was solved by adding organic additive, resulting in uniform and pin-hole free films. The OIHPs with Ge showed significantly improved stable output, which keep the same current density values at constant voltage without any encapsulation, UV-filter and temperature controllers for 120 min, resulting from the inhibition of defects in the perovskites by Ge.