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Synergistic Defect Passivation and Crystallization Modulation in Efficient Perovskite Solar Cells: The Case of Multifunctional 2-Anisidine-4-Sulfonic Acid

Yan Li, Xiangfei Song, Fei Deng, Yifei Wang, Yingchun Yu, Xue Han, Xia Tao

2023ACS Applied Materials & Interfaces15 citationsDOI

Abstract

With the continuous development of the performance of perovskite solar cells, the high-density defects on the perovskite film surface and grain boundaries as well as undesired perovskite crystallization are increasingly emerging as challenges to their commercial application. Herein, a dye intermediate 2-anisidine-4-sulfonic acid (2A4SA), containing sulfonic acid group (SO 3 – ), amino group (−NH 2 ), methoxy group (CH 3 O−), and benzene ring, which exhibit a synergistic effect in comprehensive defect passivation and crystallization modulation, is incorporated. Detailed investigations show that the SO 3 – of 2A4SA with high electronegativity firmly chelates with uncoordinated lead ions through the coordination interaction, while the –NH 2 and the CH 3 O– of 2A4SA separately immobilize iodide ions and organic cations in the perovskite lattice through hydrogen bonds, enabling substantially decreased nonradiative recombination and trap state density. Meanwhile, 2A4SA molecules attached to the surface of perovskite nuclei can delay crystallization kinetics and promote preferred vertical growth orientation, thereby attaining the high-crystallinity and large-size-grain perovskite films. Consequently, the 2A4SA-doped device with the structure ITO/SnO 2 /Cs 0.15 FA 0.75 MA 0.10 PbI 3 (2A4SA)/Spiro-OMeTAD/Ag presents a splendid power conversion efficiency (PCE) of 23.06% accompanied by increased open-circuit voltage (1.15 V) and fill factor (82.17%). Furthermore, the optimized film and device demonstrate enhanced long-term stability. The unencapsulated optimized device retains ≈80% of the original PCE after 1000 h upon exposure to ambient atmosphere (20–50% RH), whereas the control group is only 56.8%.

Topics & Concepts

PassivationMaterials scienceCrystallizationCrystallinityPerovskite (structure)TriiodideChemical engineeringSulfonic acidEnergy conversion efficiencyGrain boundaryNanotechnologyElectrodePhysical chemistryPolymer chemistryOptoelectronicsMicrostructureChemistryDye-sensitized solar cellComposite materialLayer (electronics)EngineeringElectrolytePerovskite Materials and ApplicationsConducting polymers and applicationsSolid-state spectroscopy and crystallography
Synergistic Defect Passivation and Crystallization Modulation in Efficient Perovskite Solar Cells: The Case of Multifunctional 2-Anisidine-4-Sulfonic Acid | Litcius