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Functionalized Siloles: Versatile Synthesis, Aggregation-Induced Emission, and Sensory and Device Applications

  1. Zhen Li1,
  2. Yong Qiang Dong1,
  3. Jacky W. Y. Lam1,
  4. Jiaxin Sun1,
  5. Anjun Qin1,
  6. Matthias Häußler1,
  7. Yu Ping Dong1,
  8. Herman H. Y. Sung1,
  9. Ian D. Williams1,
  10. Hoi Sing Kwok1,
  11. Ben Zhong Tang1,2,*

Article first published online: 11 FEB 2009

DOI: 10.1002/adfm.200801278

Issue

Advanced Functional Materials

Advanced Functional Materials

Volume 19, Issue 6, pages 905–917, March 24, 2009

Additional Information

How to Cite

Li, Z., Dong, Y. Q., Lam, J. W. Y., Sun, J., Qin, A., Häußler, M., Dong, Y. P., Sung, H. H. Y., Williams, I. D., Kwok, H. S. and Tang, B. Z. (2009), Functionalized Siloles: Versatile Synthesis, Aggregation-Induced Emission, and Sensory and Device Applications. Adv. Funct. Mater., 19: 905–917. doi: 10.1002/adfm.200801278

Author Information

  1. 1

    Department of Chemistry, Center for Display Research The Hong Kong University of Science & Technology Clear Water Bay, Kowloon Hong Kong (PR China)

  2. 2

    Department of Polymer Science and Engineering Zhejiang University, Hangzhou 310027 (PR China)

*Department of Chemistry, Center for Display Research The Hong Kong University of Science & Technology Clear Water Bay, Kowloon Hong Kong (PR China).

Publication History

  1. Issue published online: 19 MAR 2009
  2. Article first published online: 11 FEB 2009
  3. Manuscript Received: 28 AUG 2008

Funded by

  • Research Grants Council of Hong Kong. Grant Numbers: 603008, 602707, 602706, HKU2/05C
  • National Natural Science Foundation of China. Grant Number: 20634020
  • Ministry of Science & Technology of China. Grant Number: 2009CB623600

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Keywords:

  • fluorescence;
  • light-emitting diodes;
  • luminescent materials;
  • patterning;
  • sensors;
  • siloles

Abstract

The synthesis of functionalized siloles has been a challenge because of the incompatibility of polar functional groups with the reactive intermediates in the conventional protocols for silole synthesis. In this work, a synthetic route for silole functionalization is elaborated, through which a series of functionalized siloles are successfully prepared. Whereas light emissions of traditional luminophores are often quenched by aggregation, most of the functionalized siloles show an exactly opposite phenomenon of aggregation-induced emission (AIE). The siloles are nonemissive when dissolved in their good solvents but become highly luminescent when aggregated in their poor solvents or in the solid state. Manipulation of the aggregation–deaggregation processes of the siloles enables them to play two seemly antagonistic roles and work as both excellent quenchers and efficient emitters. The AIE effect endows the siloles with multifaceted functionalities, including fluorescence quenching, pH sensing, explosive detection, and biological probing. The sensing processes are very sensitive (with detection limit down to 0.1 ppm) and highly selective (with capability of discriminating among different kinds of ions, explosives, proteins, DNAs, and RNAs). The siloles also serve as active layers in the fabrication of electroluminescent devices and as photosensitive films in the generation of fluorescence patterns.

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