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Electron Delocalization in CsPbI<sub>3</sub> Quantum Dots Enables Efficient Light‐Emitting Diodes with Improved Efficiency Roll‐Off

Shixu Yang, Chenghao Bi, Wei Dong, Xiaoyu Zhang, Weitao Zheng, Wallace C. H. Choy, Jianjun Tian

2022Advanced Optical Materials32 citationsDOI

Abstract

Abstract Perovskite quantum dot (QD) charging is prone to occur during light‐emitting diode (LED) operation due to the electron accumulation inside the QD emitters, which is caused by the unbalanced charge injection and carrier transportation. Here in order to address this issue, an electron attractor of phenethylammonium (PEA + ) is introduced to the surface of perovskite QDs. The PEA + conjugated ligands can reversibly store and release electrons driven by the electron local density of states redistribution, which enhances the delocalization of electrons in QDs, and thus suppresses QD charging at high carrier concentrations, as evidenced by the excitation energy dependent photoluminescence. Besides, PEA + down‐shifts the Fermi level of perovskite QDs, consequently increases the hole concentration, leading to greatly improved hole conduction. Halogen‐rich synthesis environment also reduces the number of halogen vacancies, consequently narrows the distribution of electronic states at the band edges, leading to slightly improved electron conduction. Taking advantage of the enhanced electron delocalization and improved charge transportation, the CsPbI 3 QDs LEDs show the maximum external quantum efficiency (EQE) of 15.6% with a low efficiency roll‐off, and the maximum luminance of 1634 cd m −2 .

Topics & Concepts

Materials scienceDelocalized electronElectronQuantum dotOptoelectronicsLight-emitting diodePhotoluminescenceDiodeFermi levelPerovskite (structure)Quantum efficiencyCharge carrierPhysicsChemistryQuantum mechanicsCrystallographyPerovskite Materials and ApplicationsQuantum Dots Synthesis And PropertiesOrganic Light-Emitting Diodes Research
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