摘要
聚集诱导发光(AIE)现象的发现为解决传统有机荧光分子在高浓度和聚集形态下存在的荧光猝灭问题提供了最佳方案,并实现了在光电器件、化学传感、生物成像和靶向治疗等众多领域的广泛应用。随着对AIE发光机理研究的不断深入,AIE分子体系得到了极大的扩展。其中,一类具有给体-受体结构的AIE分子能够显著降低分子能隙,使发光分子波长从可见光区(400~700 nm)延伸到近红外(NIR)区(700~1700 nm)。由于NIR发光分子在生物医学领域中的独特优势,其已成为目前AIE研究的热点。随着对NIR分子设计及应用的不断探索,附加不同功能且发光波长更长的AIE分子也被开发出来了,并实现了对生物体特定组织的NIR荧光成像、光声成像、光动力治疗和光热治疗等。本文总结了近年来具有AIE性能的NIR荧光分子的结构及其在生物医学领域的相关应用。
The discovery of the aggregation-induced emission(AIE)phenomenon provides the best solution to solve the problem of fluorescence quenching of traditional organic fluorescent molecules at high concentrations and aggregation state.AIE molecules are widely used in many fields such as photoelectric devices,chemical sensing,biological imaging and targeting therapy.With the deepening of the research on the emissive mechanism of AIE,the AIE molecular system has been greatly expanded.Among them,a class of AIE molecules with donor-acceptor structures can significantly reduce the molecular energy gap and extend the emission wavelengths of molecules from the visible light region(400~700 nm)to the near infrared(NIR)region(700~1700 nm).Due to the unique advantages of NIR fluorescent molecules in the field of biomedicine,they have become the hot topic of AIE research.With the continuous exploration of the design and application of NIR molecules,AIE molecules with different functions and longer emission wavelengths have also been developed,and realized the application of NIR fluorescence imaging,photoacoustic imaging,photodynamic therapy and photothermal therapy to specific tissues of organisms.This article summarizes the structure of NIR fluorescent molecules with AIE performance in recent years and their related applications in the field of biomedicine.
作者
任飞
石建兵
佟斌
蔡政旭
董宇平
Fei Ren;Jianbing Shi;Bin Tong;Zhengxu Cai;Yuping Dong(School of Materials Science and Engineering,Beijing Institute of Technology,Beijing 100081,China)
出处
《化学进展》
SCIE
CAS
CSCD
北大核心
2021年第3期341-354,共14页
Progress in Chemistry
基金
国家自然科学基金项目(No.21875019,51673024,21975020,51803009)
关键词
聚集诱导发光
给体-受体
近红外
光声成像
光动力治疗
光热治疗
aggregation-induced emission(AIE)
donor-acceptor(D-A)
near infrared(NIR)
photoacoustic imaging(PAI)
photodynamic therapy(PDT)
photothermal therapy(PTT)