![]() ![]() World power consumption \(|\) Electricity consumption \(|\) Enerdata, (2017). By optimizing the effective parameters, a 20.35% efficient solar cell has been achieved by simulation. An anti-reflection coating with 2.019 refractive index and a thickness of 74 nm is considered as optimum. From the simulation it is seen that the optimum value of p-type doping concentration is \(1\times 10^\) and equal angles of 54.74 degrees produces the best result in simulation. It is seen that the textured surface reduces reflection and increases the efficiency of the solar cell at least 1–2%. To optimize the simulation experimentally obtained data has been used in the texturization process. For a p-type monocrystalline silicon wafer, with an area of \(10\times 10\) cm 2 and a thickness of 300 μm, initial simulation shows a 12.10% efficient solar cell. The impact of different solar cell parameters, with their effects on power and efficiency, has been investigated. In this paper, simulation of a monocrystalline silicon solar cell was done using PC1D software. ![]()
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