My thesis is a study of wide band gap (1.68 eV) perovskite top cell for tandem solar cell applications. Using SCAPS solar cell simulation program the material parameters are selected from the literature, the cell simulated, and result discussed. In order to have a tandem cell, some matching bottom cell are modeled. Every cell is modeled to be feasible. The perovskite top cell replicated can be used as model for different type of tandem cell to collect all sunlight achieving higher solar cell efficiency than currently commercially available single-junction cells.
My thesis is a study of wide band gap (1.68 eV) perovskite top cell for tandem solar cell applications. Using SCAPS solar cell simulation program the material parameters are selected from the literature, the cell simulated, and result discussed. In order to have a tandem cell, some matching bottom cell are modeled. Every cell is modeled to be feasible. The perovskite top cell replicated can be used as model for different type of tandem cell to collect all sunlight achieving higher solar cell efficiency than currently commercially available single-junction cells.
Device modelling of wide band gap perovskite solar cells for tandem applications
RAPAGNANI, ANDREA
2022/2023
Abstract
My thesis is a study of wide band gap (1.68 eV) perovskite top cell for tandem solar cell applications. Using SCAPS solar cell simulation program the material parameters are selected from the literature, the cell simulated, and result discussed. In order to have a tandem cell, some matching bottom cell are modeled. Every cell is modeled to be feasible. The perovskite top cell replicated can be used as model for different type of tandem cell to collect all sunlight achieving higher solar cell efficiency than currently commercially available single-junction cells.File | Dimensione | Formato | |
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https://hdl.handle.net/20.500.12608/45942