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Multiple-Defect Management for Efficient Perovskite Photovoltaics

Xiaoyu Yang, Yue Ni, Yuzhuo Zhang, Yanju Wang, Wenqiang Yang, Deying Luo, Yongguang Tu, Qihuang Gong, Haifeng Yu, Rui Zhu

2021ACS Energy Letters123 citationsDOI

Abstract

A variety of defects exist on the crystalline surfaces of solution-processed polycrystalline perovskites, resulting in photovoltaic output losses and subsequent degradations. It is necessary to develop a versatile passivator that can concurrently eliminate multiple defects, including vacancy, interstitial, antisite substitution, and dissociative I2. Herein, we focus on multiple-defect management to optimize defective perovskite surfaces by using three kinds of chemical bonds with a pyridine-containing polymeric agent. Coordination bonds alleviate the distorted PbIx octahedrons by digesting I vacancies, and hydrogen bonds stabilize ammonium cations to eliminate organic vacancies and deep-level antisite defects. Furthermore, the dissociated I2 acting as electron traps from the coupled I interstitials could be blocked by supramolecular halogen bonds. Based on the low-defect perovskite films, substantial increases in photovoltaic efficiencies, going up to 22.02% and 23.14%, are achieved in planar and mesoporous devices, respectively, with nonencapsulated cells retaining 90% of their original efficiencies after 2200 h of aging in ambient conditions.

Topics & Concepts

Perovskite (structure)Materials sciencePhotovoltaicsVacancy defectPhotovoltaic systemCrystalliteHydrogen bondPlanarMesoporous materialCrystallinityHalogenNanotechnologyChemical physicsChemical engineeringPhotochemistryCrystallographyChemistryMoleculeCatalysisOrganic chemistryComputer scienceMetallurgyComputer graphics (images)AlkylEcologyBiologyComposite materialEngineeringPerovskite Materials and ApplicationsQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin Films
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