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• W4295927910 startingPage "13583" @default.
• W4295927910 abstract "Light management strategies using photonic crystals have been proven to efficiently improve light harvesting and subsequently conversion efficiency of various optoelectronic devices. This study focuses on 3D inverse opal CH3NH3PbI3 photoanodes in perovskite solar cells from a combined numerical and experimental approach. Varying the pore size and the layer thickness in numerical simulations, we first determined theoretical optimum from a purely optical point of view. Corresponding 3D inverse opal photonic nanostructures were then fabricated through spin-coating protocols using polystyrene nanospheres of various diameters as hard templating sacrificial agents. It demonstrates how the photonic nanostructuration of the perovskite layer impacts both optical and electronic properties of experimental samples. Regarding the individual 3D inverse opal perovskite layers, an optimum of light absorption is reached for an ∼500 nm diameter pore photonic nanostructure, with a photonic absorption enhancement as high as 16.1% compared to an unstructured compact benchmark. However, in addition to electronic-related countereffects, local light absorption in the hole transporting material is observed in assembled solar cells, weakening the light management benefits of the perovskite layer nanostructuration to only ∼3% photonic enhancement." @default.
• W4295927910 created "2022-09-16" @default.
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• W4295927910 date "2022-09-15" @default.
• W4295927910 modified "2023-09-27" @default.
• W4295927910 title "Inverse Opal Photonic Nanostructures for Enhanced Light Harvesting in CH₃NH₃PbI₃ Perovskite Solar Cells" @default.
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• W4295927910 doi "https://doi.org/10.1021/acsanm.2c03274" @default.
• W4295927910 hasPublicationYear "2022" @default.
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