材料科学
光致发光
钙钛矿(结构)
放大自发辐射
相(物质)
吸收(声学)
光电子学
饱和(图论)
二极管
受激发射
自发辐射
衰减系数
量子效率
光化学
有源激光介质
量子产额
非线性光学
发光
非线性光学
光抽运
量子点
载流子寿命
工作(物理)
激光器
作者
Huiling Kou,Z. Zhan,Yunxiao Li,Zhenghao Liu,Yuxiang Zhou,Dongying Hou,Zhengzheng Liu,Shuhao Si,Xuran Li,Juan Du,Dengwang Li,Chen Cheng
标识
DOI:10.1002/adom.202502137
摘要
Abstract Quasi‐two‐dimensional (quasi‐2D) perovskites now are promising candidate materials for obtaining laser diodes and microlaser media, requiring phase‐purification as an effective strategy to minimize energy loss and enhance optical gain. However, the intrinsic mechanism by which purified phase purity leads to high photophysical properties remains understudied. Here, by employing phenylethylammonium trifluoroacetate (PEATFA) for phase purification, it is demonstrated that phase‐purified perovskites possess suppressed exciton‐phonon coupling, prolonged gain lifetime and enhanced nonlinear absorption property. At low temperature, photoluminescence reveals that the phase‐purified quasi‐2D perovskite film has weakened quantum confinement and suppressed exciton‐phonon coupling. During the establishment of stimulated emission, the enhanced energy transfer efficiency enables sufficient carrier accumulation in higher‐dimensional phases, prolonging the gain lifetime to 98 ps. After phase purification, perovskite films exhibit better optical properties in nonlinear regime with higher two‐photon absorption (TPA) coefficient and lower saturation absorption intensity. Finally, phase‐purified films achieve optimal amplified spontaneous emission (ASE) performance with a remarkably low threshold of 3.6 µJ cm −2 . This work reveals the intrinsic mechanism of phase purification regulating photophysical properties, providing a scientific basis for understanding that phase purification treatment enhances the gain characteristics of perovskite materials.
科研通智能强力驱动
Strongly Powered by AbleSci AI