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Introduction

Luminescent molecules with high efficiency in aggregate state are promising candidate materials for the development of organic light-emitting diodes, fluorescent sensors, solid-state lasers, etc.

While light emission from conventional luminophores is strong in solution state, it is weak in the condensed phase, e.g. in thin solid films or aggregates. In other words, light emission from these conventional luminophores suffers from quenching caused by aggregation. This causes problems when applying these luminophores to real-world applications in solid state or aqueous media, where their molecules tend to form aggregates. Various chemical, physical and engineering approaches have been taken to prevent luminophores from aggregating and to alleviate the quenching effect, but the efforts have met with only limited success.

The discovery of aggregation-induced emission (AIE), whereby the aggregation of luminogens plays a positive role, enhancing the light-emission efficiency, has attracted much interest as it offers a new platform for the exploration of practically useful luminescent materials. Diverse AIE-active luminogens (or AIEgens) with tuneable emission colours and high quantum yields (up to unity) in the solid state have been generated, which have found technological applications in a broad range of fields including optics, electronics, energy and bioscience.

The development of a new generation of AIEgens, a deep understanding of the AIE mechanism(s) and the exploration of advanced technological applications will enable this exciting research area to develop further. This Faraday Discussion will bring together researchers in the field to discuss the progress made so far, current challenges and potential breakthroughs that may be accomplished in the near future.

Call for paper

Submission Topics

Themes

  • New and efficient fluorescent and phosphorescent luminogens
  • The scope of this session includes the design and synthesis of new fluorescent AIEgens based on the restriction of intramolecular motions, and exploration of room-temperature phosphorescent AIEgens and understanding of their working mechanisms.
  • Advance functional luminogens in the solid-state
  • This session will cover the development of multifunctional emitters with structural polymorphism and photo-, thermo-, mechano-, vapo-, acido- and chrono-chromism.
  • Biomedical applications of luminogens
  • This session will comprise the exploration of technological applications of multi-photon-susceptible luminogens as sensing, imaging, probing and theranostic tools in the area of life science.
  • Optoelectronic devices of high efficient luminogens in the solid state
  • This session will discuss the creation of luminogens with various emission colours and high luminescence quantum yields. It will also highlight and debate the utility of luminogens for the construction of efficient optoelectronic devices such as organic light-emitting diodes.
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Important Date
  • Conference Date

    Nov 18

    2016

    to

    Nov 20

    2016

  • Nov 20 2016

    Registration deadline

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