钙钛矿(结构)
同种类的
激光线宽
结晶
亚稳态
相(物质)
二极管
材料科学
化学物理
量子点
光电子学
发射光谱
过程(计算)
发光二极管
凝聚态物理
量子效率
谱线
正交晶系
分子物理学
蓝移
能量(信号处理)
光致发光
量子
基质(化学分析)
作者
Joo Sung Kim,Hyeon‐Dong Lee,Jeong Hyun Jung,Taehee Kim,Seung‐Je Woo,Hyung Joong Yoon,Jaehyun Moon,Chan‐mo Kang,S. Chang,Dong‐Hyeok Kim,Sungjin Kim,Hoichang Yang,Dongho Kim,Tae‐Woo Lee
标识
DOI:10.1038/s41467-025-62863-y
摘要
Abstract Quasi-two-dimensional perovskite structures hold great potential as active layers in blue perovskite light-emitting diodes. However, they face challenges of limited emission efficiency and broadened spectra due to phase inhomogeneity. Here, we report an intermediate-direct-pinning method to develop a uniform-phase quasi-two-dimensional structure with a homogeneous energy landscape. By forming a strong cation-π interaction complex, we stabilize a metastable intermediate phase with retarded crystallization toward low- n phases ( n ≤ 3), followed by a direct pinning process favouring crystallization of medium- n phases ( n = 4 and 5) without further broadening. Additionally, introducing a surface-anchoring ligand during the pinning process effectively suppresses non-radiative recombination. The resultant structure shows efficient sky-blue emission and narrow linewidth (108 meV). Devices fabricated with this structure reach a maximum external quantum efficiency of 22.5% at 489 nm, which is scalable to large-area (pixel size: 900 mm 2 ) and passive matrix devices (30 × 10 arrays, active area = 200 μm × 600 μm). These findings highlight the potential of perovskite light-emitting diodes for full-colour displays.
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