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In the domain of perovskite solar cells (PSCs), the imperative to reconcile impressive photovoltaic performance with lead-related issue and environmental stability has driven innovative solutions. This study pioneers an approach that not only rectifies lead leakage but also places paramount importance on the attainment of rigorous interfacial passivation. Crown ethers, notably benzo-18-crown-6-ether (B18C6), were strategically integrated at the perovskite-hole transport material interface. Crown ethers exhibit a dual role: efficiently sequestering and immobilizing Pb2+ ions through host-guest complexation and simultaneously establishing a robust interfacial passivation layer. Selected crown ether candidates, guided by density functional theory (DFT) calculations, demonstrated proficiency in binding Pb2+ ions and optimizing interfacial energetics. Photovoltaic devices incorporating these materials achieved exceptional power conversion efficiency (PCE), notably 21.7% for B18C6, underscoring their efficacy in lead binding and interfacial passivation. Analytical techniques, including time-of-flight secondary ion mass spectrometry (ToF-SIMS), ultraviolet photoelectron spectroscopy (UPS), time-resolved photoluminescence (TRPL), and transient absorption spectroscopy (TAS), unequivocally affirmed Pb2+ ion capture and suppression of non-radiative recombination. Notably, these PSCs maintained efficiency even after enduring 300 h of exposure to 85% relative humidity. This research underscores the transformative potential of crown ethers, simultaneously addressing lead binding and stringent interfacial passivation for sustainable PSCs poised to commercialize and advance renewable energy applications. (c) 2024 Science Press and Dalian Institute of Chemical Physics, Chinese Academy of Sciences. Published by ELSEVIER B.V. and Science Press All rights reserved.
Mohammad Khaja Nazeeruddin, Filippo de Angelis, Konstantina Kalliopi Armadorou
Michael Graetzel, Jacques-Edouard Moser, Jovana Milic, Lukas Pfeifer, George Cameron Fish, Masaud Hassan S Almalki, Algirdas Ducinskas, Aaron Tomas Terpstra, Loï Charles Carbone