磷光
激发态
发光
分子内力
材料科学
荧光
分子
光化学
基质(化学分析)
化学
光电子学
聚合物
光发射
分子物理学
系统间交叉
三重态
受激发射
纳米技术
轴对称性
化学物理
国家(计算机科学)
发射光谱
合理设计
作者
Jusaina Eyyathiyil,Subhajit Ghosh,Arunima Cheran,Silvano Geremia,Neal Hickey,Jatish Kumar,Pakkirisamy Thilagar
摘要
Axially chiral aminoboranes that integrate multiple emissive functions within a single molecular framework are reported. These compounds exhibit dual emission, originating from two electronically distinct excited states: high-energy fluorescence from a binaphthyl-localized state and low-energy emission from an aminoborane-centered charge-transfer state. Circularly-polarized luminescence is observed exclusively from the high-energy channel, directly linking chiroptical activity to the binaphthyl-localized excited state. Restricting intramolecular motion enhances high-energy emission. In contrast, incorporation into a rigid polymer matrix enables efficient triplet harvesting, affording persistent room-temperature phosphorescence with lifetimes on the order of seconds. This RTP feature further enables time-gated optical encoding, highlighting the potential of these materials for anti-counterfeiting applications. The combination of white-light emission, selective circular polarization, and ultralong phosphorescence in a single scaffold establishes a molecular design strategy for multifunctional chiroptical materials.
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