Thermodynamic modeling of a spectrum split perovskite/silicon solar cell hybridized with thermoelectric devices

To facilitate the attainment of higher performance in tandem perovskite/silicon solar cell, this work seeks to conduct thermodynamic modeling and analysis a spectrum splitting hybridized with thermoelectric (TE) devices. A dichroic beam splitter is employed as concentrator for utilization entire effects temperature dependency leg geometry alteration are considered TE device pins. Additionally, cooler (TEC) lapped behind backplate cell reduce overheating allow power generation from hybrid system. Finally, novel equations developed study varying halide composition perovskite on overall system performance. Among several fascinating results obtained, it was disclosed that increasing bromine only improved system's when 0.2 used organic-inorganic thickness ranging 300 400 nm. It also forecasted cells exposed concentrated irradiances, will become more notable. utilizing TEC maintain at 293K not beneficial used. found highest efficiency 42% obtained split wavelength 800 nm which considerably than 23.6% reported standalone perovskite/Si. These sufficient provide useful insights regarding operation