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Unraveling Chiral Perovskite Spin‐Light Emitting Diode Performance and Magneto‐Chiroptical Properties Relationship Due to the Synergistic Effect

Yang Li, Linze Jiang, Jun Tang, Sheng Tao, Xiangpeng Zhang, Houzhi Chen, Guoshuai Zhang, Jing Li, Jing Li, Xixiang Zhu, Haomiao Yu, Yumeng Shi, Jinpeng Li, Jinpeng Li, Kai Wang

2025Advanced Functional Materials16 citationsDOIOpen Access PDF

Abstract

Abstract Chiral hybrid perovskites (CHPs) are very promising for room temperature spin‐light emitting diodes (spin‐LEDs) because of the chiral‐induced spin orbit coupling (CISOC) and the helicity‐dependent carrier transport. The chiral‐achiral synergistic method has been recognized as a critical and successful pathway for developing high‐performance spin‐LEDs. Nonetheless, it remains an absence of any studies to demonstrate and elucidate the relationship between chiral perovskite spin‐LEDs’ performance and magneto‐chiroptical properties. Herein, high‐performance spin‐LEDs are being designed and fabricated using the synergistic method. A combination of experimental and theoretical study is performed systematically toward understanding critical spin‐related chiroptical properties, for instance, spin lifetimes, CISOC strengths, and magnetic transition dipole moments. To tune the chiral organic constituent is found to be decisive for degrees of circularly polarized electroluminescence (CP‐EL) and magneto‐chiroptical properties of CHPs. This insightful study, for the first time, unlocks the correlation between the chiral perovskite spin‐LEDs’ performance and spin‐dependent chiroptical properties due to the synergistic effect.

Topics & Concepts

Perovskite (structure)Materials scienceOptoelectronicsDiodeSpin (aerodynamics)Light-emitting diodeMagnetoMagneto opticalChemical physicsChemical engineeringMagnetic fieldPhysicsMagnetQuantum mechanicsEngineeringThermodynamicsPerovskite Materials and ApplicationsAdvanced Condensed Matter PhysicsMagnetic and transport properties of perovskites and related materials