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Reduced bilateral recombination by functional molecular interface engineering for efficient inverted perovskite solar cells

Bowei Li, Yuren Xiang, K. D. G. Imalka Jayawardena, Deying Luo, Zhuo Wang, Xiaoyu Yang, John F. Watts, Steven J. Hinder, Muhammad T. Sajjad, Thomas Webb, Haitian Luo, Igor P. Marko, Hui Li, Stuart A. J. Thomson, Rui Zhu, Guosheng Shao, Stephen J. Sweeney, S. Ravi P. Silva, Wei Zhang

2020Nano Energy66 citationsDOIOpen Access PDF

Abstract

Interface-mediated recombination losses between perovskite and charge transport layers are one of the main reasons that limit the device performance, in particular for the open-circuit voltage (VOC) of perovskite solar cells (PSCs). Here, functional molecular interface engineering (FMIE) is employed to retard the interfacial recombination losses. The FMIE is a facile solution-processed means that introducing functional molecules, the fluorene-based conjugated polyelectrolyte (CPE) and organic halide salt (OHS) on both contacts of the perovskite absorber layer. Through the FMIE, the champion PSCs with an inverted planar heterojunction structure show a remarkable high VOC of 1.18 V whilst maintaining a fill factor (FF) of 0.83, both of which result in improved power conversion efficiencies (PCEs) of 21.33% (with stabilized PCEs of 21.01%). In addition to achieving one of the highest PCEs in the inverted PSCs, the results also highlight the synergistic effect of these two molecules in improving device performance. Therefore, the study provides a straightforward avenue to fabricate highly efficient inverted PSCs.

Topics & Concepts

Materials sciencePerovskite (structure)Molecular engineeringHeterojunctionHalideOptoelectronicsEnergy conversion efficiencyPlanarRecombinationActive layerMoleculeLayer (electronics)NanotechnologyChemical engineeringInorganic chemistryThin-film transistorComputer scienceGeneEngineeringOrganic chemistryChemistryBiochemistryComputer graphics (images)Perovskite Materials and ApplicationsQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin Films
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