In nanosized non-semiconductor materials and semiconductors (which is the InP nanorods in our case), the Mie frequency is determined by the dielectric constant and electron density of the material. The localization of Mie resonance in nanostructured semiconductors can lead to enhanced optical and electronic properties, such as increased absorption and emission rates, and improved device performance. In solar cell technology, enhancing efficiency through quantum optics is the research target for reducing the overall cost of solar power systems. In this study, we present a p-n junction-based solar cell, consisting of four layers of TiO₂, InP nanorods, Si, and Ag, to examine the influence of InP nanorods on Mie resonance, carrier generation rate, and photon current.