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Aggregation-Induced Emission-Active Nanostructures: Beyond Biomedical Applications.

Ming Hui Chua1, Kang Le Osmund Chin1, Xian Jun Loh1,2,3

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Aggregation-induced emission (AIE) nanomaterials show great promise beyond biomedical uses. This review highlights AIE nanomaterials synthesis and their applications in sensing, optoelectronics, and stimuli-responsive systems.

Keywords:
aggregation-induced emissionchemosensingluminescent materialsnanomaterialsnanosciencenanostructuresnanotechnologyoptoelectronicsself-assemblytetraphenylethylene

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Optoelectronics

Background:

  • Aggregation-induced emission (AIE) is a photoluminescence phenomenon discovered in 2001.
  • AIE materials are utilized in optoelectronics, sensing, biomedical imaging, and theranostics.
  • Integrating AIE with nanoscience and nanotechnology enhances material properties and applications.

Purpose of the Study:

  • To review the latest research on AIE-based nanomaterials.
  • To showcase synthesis methods and non-biomedical applications of AIE nanomaterials.
  • To provide insights into designing AIE nanostructures for diverse applications.

Main Methods:

  • Literature review of recent research on AIE nanomaterials.
  • Analysis of synthesis strategies for AIE-based nanostructures.
  • Compilation of non-biomedical applications including sensing, optoelectronics, and functional coatings.

Main Results:

  • AIE nanomaterials are increasingly developed for non-biomedical applications.
  • Successful integration of AIE with nanotechnology enables novel material functionalities.
  • Diverse applications demonstrated in sensing, optoelectronics, functional coatings, and stimuli-responsive systems.

Conclusions:

  • AIE-based nanotechnology offers significant potential for non-biomedical applications.
  • Further research into designing AIE nanostructures can unlock new technological advancements.
  • The synergy between AIE and nanotechnology is crucial for future materials development beyond the biomedical domain.