余辉
激发态
单重态
单重态裂变
人口
光化学
化学
材料科学
原子物理学
物理
量子力学
医学
伽马射线暴
环境卫生
作者
Jie Yuan,Runfeng Chen,Xingxing Tang,Ye Tao,Shen Xu,Lu Jin,Cailin Chen,Xin‐Hui Zhou,Chao Zheng,Wei Huang
出处
期刊:Chemical Science
[The Royal Society of Chemistry]
日期:2019-01-01
卷期号:10 (19): 5031-5038
被引量:93
摘要
Invoking efficient afterglow in metal-free organic molecules represents an important material advancement. However, organic afterglow suffers from low intensity and efficiency and generally needs to be excited by UV light owing to its spin-forbidden phosphorescent nature that essentially requires facile intersystem crossing (ISC). Here, we propose a strategy to bypass the traditional ISC through facilitating singlet-triplet transition to directly populate triplet excited states from the ground state by combining synergetic effects of both heavy/hetero-atom incorporation and aromatic aggregation. Verified by systematic experimental and computational investigations, this unique singlet-to-triplet absorption results in a much improved organic afterglow quantum efficiency up to 9.5% with a prolonged lifetime of 0.25 s under visible-light irradiation. Fundamentally, this work illustrates for the first time the great potential of the direct population method to red-shift the excitation wavelength and improve the afterglow efficiency, offering important clues for the development of triplet-state involved organic optoelectronic technologies.
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