Planar Perovskite Solar Cells Using Perovskite CsPbI3 Quantum Dots as Efficient Hole Transporting Layers

Planar Perovskite Solar Cells Using Perovskite CsPbI3 Quantum Dots as Efficient Hole Transporting Layers

Perovskite CsPbI3 quantum dots (QDs) were synthesized as a hole-transporting layer (HTL) of a planar perovskite solar cell (PSC). By using the Octam solution during the ligand engineering, CsPbI3 QDs exhibits a denser grain and a larger grain size due to the short-chain ligands of Octam. In addition...

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Veröffentlicht in:Materials 2022-12, Vol.15 (24), p.8902
Hauptverfasser: Liang, Tsair-Chun, Su, Hsin-Yu, Chen, Sih-An, Chen, Yen-Ju, Chiang, Chung-Yu, Chiang, Chih-Hsun, Kao, Tzung-Ta, Chen, Lung-Chien, Lin, Chun-Cheng
Format: Artikel
Sprache:eng
Schlagworte:
Alternative energy
Circuits
Efficiency
Electricity
Energy conversion efficiency
Energy industry
Engineering
Fossil fuels
Grain size
Ligands
Morphology
Open circuit voltage
Perovskites
Photovoltaic cells
Quantum dots
Renewable resources
Short circuit currents
Solar cells
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Zusammenfassung:Perovskite CsPbI3 quantum dots (QDs) were synthesized as a hole-transporting layer (HTL) of a planar perovskite solar cell (PSC). By using the Octam solution during the ligand engineering, CsPbI3 QDs exhibits a denser grain and a larger grain size due to the short-chain ligands of Octam. In addition, CsPbI3 QDs with the Octam solution showed a smooth and uniform surface on MAPbI3 film, indicating the QDs improved the microstructure of the MAPbI3 perovskite film. As a result, the PSC with CsPbI3 QDs as an HTL has the optimal open-circuit voltage as 1.09 V, the short-circuit current as 20.5 mA/cm2, and the fill factor (FF) as 75.7%, and the power conversion efficiency (PCE) as 17.0%. Hence, it is inferred that introducing QDs as a HTL via the ligand engineering can effectively improve the device performance of the PSC.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma15248902