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Modulation of Aggregation-Induced Emission by Excitation Energy Transfer: Design and Application.

Lei DongHui-Qing PengLi-Ya NiuQing-Zheng Yang
Published in: Topics in current chemistry (Cham) (2021)
Excitation energy transfer (EET) as a fundamental photophysical process is well-explored for developing functional materials with tunable photophysical properties. Compared to traditional fluorophores, aggregation-induced emission luminogens (AIEgens) exhibit unique advantages for building EET systems, especially serving as energy donors, due to their outstanding photophysical properties such as bright fluorescence in aggregation state, broad absorption and emission spectra, large Stokes shift, and high photobleaching resistance. In addition, the photophysical properties of AIEgens can be modulated by energy transfer for improved luminescence performance. Therefore, a variety of EET systems based on AIEgens have been constructed and their applications in different areas have been explored. In this review, we summarize recent progress in the design strategy of AIE-based energy transfer systems for light-harvesting, fluorescent probes and theranostic systems, with an emphasis on design strategies to achieve desirable properties. The limitations, challenges and future opportunities of AIE-EET systems are briefly outlined. Design strategies and applications (light-harvesting, fluorescent probe and theranostics) of AIEgen-based excitation energy systems are discussed in this review.
Keyphrases
  • energy transfer
  • fluorescent probe
  • living cells
  • quantum dots
  • small molecule
  • single molecule
  • fluorescence imaging
  • photodynamic therapy
  • density functional theory
  • wastewater treatment
  • molecular dynamics