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Single‐Crystal Seeds Inducing the Crystallization of High‐Performance <i>α</i>‐FAPbI<sub>3</sub> for Efficient Perovskite Solar Cells

Jun He, Dewang Li, Hongli Liu, Junyan Xiang, Jiaxv Bai, Yuting Ren, Zhongyue Wang, Meng Xia, Xunjie Yin, Longfei Yuan, Fei Zhang, Shirong Wang

2023Advanced Energy Materials54 citationsDOI

Abstract

Abstract α ‐phase formamidine lead iodine ( α ‐FAPbI 3 ) as a competitive candidate to pursue high‐performance perovskite solar cells (PSCs) suffers from the weakness of random nucleation and disordered growth in chasing high‐grade polycrystalline films. Here, single‐crystal seeds crystallization (SCSC) method is proposed to obtain high‐quality α ‐FAPbI 3 perovskite films for the first time. Six single‐crystals seeds (CsPbBr 3 , CsPbI 3 , FAPbBr 3 , FAPbI 3 , MAPbBr 3 , and MAPbI 3 ) are employed to regulate α ‐FAPbI 3 perovskite crystallization. These seeds act as nucleation sites and allow the perovskite to grow directly. The rapid crystallization significantly improves the crystallinity of perovskite films with uniform morphology, large grain size, and less defects. Of particular note, FAPbBr 3 seed prefers to grow α ‐FAPbI 3 epitaxially from FAPbBr 3 @PbI 2 heterostructure through a halogen anion exchange process. The average grain size of FAPbBr 3‐ perovskite film is boosted to 2.6 µm, and the trap density reduced by 11 times. The resultant FAPbBr 3 ‐PSCs achieve a maximum power conversion efficiency (PCE) of 23.84% with a high open‐circuit voltage of 1.18 V. The unencapsulated PSC retains 91% of the initial PCE after 3000 h of storage at ≈30–50% relative humidity and preserves 98.5% of the original value after 155 h illumination with maximum power point tracking.

Topics & Concepts

Materials scienceCrystallizationCrystallinityNucleationPerovskite (structure)Energy conversion efficiencyCrystal (programming language)CrystalliteGrain sizeChemical engineeringOptoelectronicsComposite materialChemistryOrganic chemistryMetallurgyProgramming languageComputer scienceEngineeringPerovskite Materials and ApplicationsSolid-state spectroscopy and crystallography
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