We investigate the influence of growth temperature, p -doping with bis-cyclopentadienyl magnesium (Cp2Mg) and number N of multi-quantum wells on the surface morphology, the electrical and optical properties of InGaN-based solar cells grown by metal-organic vapour phase epitaxy. Atomic force microscopy measurements show no influence of multiple-quantum well number on the surface morphology, but a smoothing with the increase of the Cp2Mg flow. Electrochemical capacitance-voltage profiling exhibits an increase of the Na-Nd concentration when increasing the Cp2Mg flow from 250 to 700 sccm. X-ray diffraction analysis and transmission electron microscopy measurements confirm completely strained quantum wells with similar superlattice period for N=5 to 30. Finally, first solar cells have been demonstrated with a maximum external quantum efficiency of 38% at 380 nm wavelength for N=30.