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High efficiency planar-type perovskite solar cells with negligible hysteresis using EDTA-complexed SnO2

Dong Yang, Ruixia Yang, Kai Wang, Congcong Wu, Xuejie Zhu, Jiangshan Feng, Xiaodong Ren, Guojia Fang, Shashank Priya, Shengzhong Liu

2018Nature Communications1,390 citationsDOIOpen Access PDF

Abstract

Abstract Even though the mesoporous-type perovskite solar cell (PSC) is known for high efficiency, its planar-type counterpart exhibits lower efficiency and hysteretic response. Herein, we report success in suppressing hysteresis and record efficiency for planar-type devices using EDTA-complexed tin oxide (SnO 2 ) electron-transport layer. The Fermi level of EDTA-complexed SnO 2 is better matched with the conduction band of perovskite, leading to high open-circuit voltage. Its electron mobility is about three times larger than that of the SnO 2 . The record power conversion efficiency of planar-type PSCs with EDTA-complexed SnO 2 increases to 21.60% (certified at 21.52% by Newport) with negligible hysteresis. Meanwhile, the low-temperature processed EDTA-complexed SnO 2 enables 18.28% efficiency for a flexible device. Moreover, the unsealed PSCs with EDTA-complexed SnO 2 degrade only by 8% exposed in an ambient atmosphere after 2880 h, and only by 14% after 120 h under irradiation at 100 mW cm −2 .

Topics & Concepts

Energy conversion efficiencyPerovskite (structure)HysteresisMaterials sciencePerovskite solar cellMesoporous materialPlanarTin oxideOptoelectronicsTinLayer (electronics)NanotechnologyChemical engineeringChemistryCrystallographyCatalysisCondensed matter physicsComputer graphics (images)Computer scienceEngineeringPhysicsBiochemistryMetallurgyDopingPerovskite Materials and ApplicationsQuantum Dots Synthesis And PropertiesConducting polymers and applications
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