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High Electron Affinity Enables Fast Hole Extraction for Efficient Flexible Inverted Perovskite Solar Cells

Pengbin Ru, Enbing Bi, Yao Zhang, Yanbo Wang, Weiyu Kong, Yongming Sha, Wentao Tang, Peng Zhang, Yongzhen Wu, Wei Chen, Xudong Yang, Han Chen, Liyuan Han

2020Advanced Energy Materials295 citationsDOI

Abstract

Abstract Inverted perovskite solar cells (PSCs) with low‐temperature processed hole transporting materials (HTMs) suffer from poor performance due to the inferior hole‐extraction capability at the HTM/perovskite interfaces. Here, molecules with controlled electron affinity enable a HTM with conductivity improved by more than ten times and a decreased energy gap between the Fermi level and the valence band from 0.60 to 0.24 eV, leading to the enhancement of hole‐extraction capacity by five times. As a result, the 3,6‐difluoro‐2,5,7,7,8,8‐hexacyanoquinodimethane molecules are used for the first time enhancing open‐circuit voltage ( V oc ) and fill factor (FF) of the PSCs, which enable rigid‐and flexible‐based inverted perovskite devices achieving highest power conversion efficiencies of 22.13% and 20.01%, respectively. This new method significantly enhances the V oc and FF of the PSCs, which can be widely combined with HTMs based on not only NiO x but also PTAA, PEDOTT:PSS, and CuSCN, providing a new way of realizing efficient inverted PSCs.

Topics & Concepts

Materials sciencePerovskite (structure)Energy conversion efficiencyNon-blocking I/OBand gapConductivityOptoelectronicsPerovskite solar cellFermi levelElectrodeElectronMoleculeChemical engineeringPhysical chemistryCatalysisOrganic chemistryPhysicsEngineeringQuantum mechanicsChemistryPerovskite Materials and ApplicationsConducting polymers and applicationsQuantum Dots Synthesis And Properties
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