Publication | Open Access
Spirobifluorene with an asymmetric fluorenylcarbazolamine electron-donor as the hole transport material increases thermostability and efficiency of perovskite solar cells
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Citations
37
References
2023
Year
EngineeringOrganic Solar CellHalide PerovskitesChemistryPerovskite Solar CellsRemarkable 85Perovskite ModulePhotovoltaicsSolar Cell StructuresAsymmetric Fluorenylcarbazolamine Electron-donorMaterials Science°C DurabilityPerovskite MaterialsLead-free PerovskitesPerovskite Solar CellApplied PhysicsSolar CellsFunctional MaterialsSolar Cell Materials
A structurally simple hole transport material, with an extremely high glass transition temperature, achieves an average initial efficiency of 24.5% and remarkable 85 °C durability in perovskite solar cells.
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