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Structurally Flexible 2D Spacer for Suppressing the Electron–Phonon Coupling Induced Non-Radiative Decay in Perovskite Solar Cells

Ruikun Cao, Kexuan Sun, Chang Liu, Yuhong Mao, Wei Guo, Ping Ouyang, Yuanyuan Meng, Ruijia Tian, Lisha Xie, Xujie Lü, Ziyi Ge

2024Nano-Micro Letters34 citationsDOIOpen Access PDF

Abstract

Abstract This study presents experimental evidence of the dependence of non-radiative recombination processes on the electron–phonon coupling of perovskite in perovskite solar cells (PSCs). Via A-site cation engineering, a weaker electron–phonon coupling in perovskite has been achieved by introducing the structurally soft cyclohexane methylamine (CMA + ) cation, which could serve as a damper to alleviate the mechanical stress caused by lattice oscillations, compared to the rigid phenethyl methylamine (PEA + ) analog. It demonstrates a significantly lower non-radiative recombination rate, even though the two types of bulky cations have similar chemical passivation effects on perovskite, which might be explained by the suppressed carrier capture process and improved lattice geometry relaxation. The resulting PSCs achieve an exceptional power conversion efficiency (PCE) of 25.5% with a record-high open-circuit voltage ( V OC ) of 1.20 V for narrow bandgap perovskite (FAPbI 3 ). The established correlations between electron–phonon coupling and non-radiative decay provide design and screening criteria for more effective passivators for highly efficient PSCs approaching the Shockley–Queisser limit.

Topics & Concepts

Perovskite (structure)PassivationMaterials sciencePhononSpontaneous emissionMethylamineEnergy conversion efficiencyElectronBand gapRadiative transferCoupling (piping)Condensed matter physicsChemical physicsOptoelectronicsChemistryMolecular physicsNanotechnologyPhysicsOpticsCrystallographyMetallurgyOrganic chemistryLayer (electronics)Quantum mechanicsLaserPerovskite Materials and ApplicationsConducting polymers and applicationsSolid-state spectroscopy and crystallography
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