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Achieving efficient and stable inorganic CsSnI<sub>3</sub> mesoporous perovskite solar cells <i>via</i> galvanic displacement reaction
20
Citations
44
References
2022
Year
EngineeringEnergy ConversionHalide PerovskitesPhoto-electrochemical CellGalvanic Displacement ReactionChemistryPhotovoltaicsChemical EngineeringDevice StabilityMaterials ScienceElectrical EngineeringInorganic ElectronicsSolar PowerPerovskite MaterialsEnergy StorageEnergy MaterialPerovskite Solar CellFunctional MaterialsMesoporous Cssni 3Solar Cell Materials
A galvanic displacement reaction using zinc powder to reduce Sn 4+ in the precursor and enhance the device stability was reported. A record power conversion efficiency of 8.27% was achieved in mesoporous CsSnI 3 solar cells.
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