1 / 45

Ben Zhong Tang ( 唐 本忠 ) The Hong Kong University of Science & Technology

NANO601A: Advanced Topics in Nano Science & Technology 5:00–5:50 pm, 18 Oct. 2006 (Wednesday), Room 4505. Aggregation-Induced Emission (AIE). Ben Zhong Tang ( 唐 本忠 ) The Hong Kong University of Science & Technology. OUTLINE. Introduction Silole Cyclcobutene Fulvene 4 H -Pyran

isanne
Download Presentation

Ben Zhong Tang ( 唐 本忠 ) The Hong Kong University of Science & Technology

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. NANO601A: Advanced Topics in Nano Science & Technology 5:00–5:50 pm, 18 Oct. 2006 (Wednesday), Room 4505 Aggregation-Induced Emission (AIE) Ben Zhong Tang (唐 本忠) The Hong Kong University of Science & Technology

  2. OUTLINE • Introduction • Silole • Cyclcobutene • Fulvene • 4H-Pyran • Tetraphenylethene • Conclusion • Acknowledgment

  3. Light-Emitting Materials and Devices

  4. Simple device structure Flexible or bendable Wide viewing angle

  5. Many chromophoric molecules are fluorescent in solutions but become less or even nonemissive when fabricated into thin solid films Aggregation Quenches Light Emission! A thorny problem in the development of efficient light-emitting diodes (LEDs) It would be nice, if a molecule can emit efficiently in the solid (aggregative) state

  6. OUTLINE • Introduction • Silole • Cyclcobutene • Fulvene • 4H-Pyran • Tetraphenylethene • Conclusion • Acknowledgment

  7. Siloles: a group of wonder molecules • Faintly luminescent when dissolved • Highly emissive when aggregated!

  8. October 8, 2001 Aggregation- Induced Emission (AIE) C&EN, 2001, 79 (41), 29.

  9. Viscochromism Photoluminescence peak intensity of 3 vs. composition of glycerol/methanol mixtures; concentration of HPS: 10 M; excitation wavelength: 407 nm.

  10. Thermochromism (A) Photoluminescence spectra of 3 in 1,4-dioxane at different temperatures. (B) Effect of temperature on the peak intensity of the photoluminescence of 18 in dioxane and THF. Concentration of 18: 10 M; excitation wavelength: 407 nm.

  11. Restricted Intramolecular Rotation

  12. in acetone

  13. thin solid film

  14. Sensitive and Regioselective Chemosensor Stern-Volmer plots for the PL quenching of a THF solution of 13,4 by o-, m- and p-NAs. Concentration of 13,4: 3.96 mM; excited wavelength: 389 nm.

  15. Vapochromism (on TLC plates) acetone control chloroform

  16. Biosensor PL spectra of the water/methanol (6:4) solutions of a water-soluble silole (5.7 × 10-5 M) in the presence of KOH (8.4 × 10-4 M) and BSA (concentration given in the figure). The spectrum of a “pure” BSA solution (0.50 wt %) is shown for comparison. lex = 378 nm.

  17. Y Y Y Biolabel silole nano-particle analyte Schematic illustration of the preparation of biofunctional silole nanocrystals. HPS was ball-milled into nanocrystals in an aqueous surfactant followed by encapsulation with polyelectrolyte multilayers of nanometer thickness and the attachment of a specific immunoreagent. The analyte is first immobilized by the capture antibody pre-adsorbed on the solid phase and then exposed to the antibody-labeled nanocrystal detectors.

  18. Sandwich fluorescence immunoassay of M IgG using Gt α M IgG–HPS nanocrystals () and Gt α M IgG–FITC (■) as labels. Abbreviations: M IgG = mouse immunoglobulin G, Gt = goat, and FITC = fluorescein isothiocyanate.

  19. Blue Electroluminescence of Silole Crystal Current efficiency of an LED of 12,4 and (inset) EL and PL spectra of its amorphous (a) and crystalline (k) films

  20. Green Electroluminescence of Amorphous Films Silole Von (V)CE (cd/A) PE (lm/W) L (cd/m2) EL (%) —————————————————————————— 2 3.42014 9 234 8 3 4.0 15 10 55 880 7 Siloles: Excellent LED Materials

  21. Silole-Based Photovoltaic Cell

  22. OUTLINE • Introduction • Silole • Cyclcobutene • Fulvene • 4H-Pyran • Tetraphenylethene • Conclusion • Acknowledgment

  23. Aggregation-Induced Emission (AIE) (A) PL spectra of 3,4-bis(diphenylmethylene)-1,2-diphenyl-1-cyclobutene in absolute acetone and water/acetone mixtures; concentration: 10 μM; excitation wavelength: 367 nm, (B) Quantum yield vs. solvent composition of water/acetone mixture.

  24. 0 10 20 30 40 50 60 70 80 90 Photos of 3,4-bis(diphenylmethylene)-1,2-diphenyl-1-cyclobutenein water/acetone mixtures (10 μM) under illumination of a UV lamp (365 nm); water contents (vol %) are given in the photos

  25. OUTLINE • Introduction • Silole • Cyclcobutene • Fulvene • 4H-Pyran • Tetraphenylethene • Conclusion • Acknowledgment

  26. water content (vol %) 90 99

  27. OUTLINE • Introduction • Silole • Cyclcobutene • Fulvene • 4H-Pyran • Tetraphenylethene • Conclusion • Acknowledgment

  28. AIE (yellow)

  29. AIE (red)

  30. Color-Tunable AIE (Pyran) AIE (green) AIE (yellow) AIE (Red) Water Content Increases • Green emission (polarized light) • Polarization: ~0.44 • Helical Aggregates

  31. OUTLINE • Introduction • Silole • Cyclcobutene • Fulvene • 4H-Pyran • Tetraphenylethene • Conclusion • Acknowledgment

  32. (A) FL spectra of 1 in water/AN mixtures and (B) dependence of FL quantum yield (F) of 1 on solvent composition of the water/AN mixture. Concentration of 1: 10 μM; excitation wavelength: 350 nm.

  33. (A) Change of fluorescence spectrum of 2·Na2 (5 μM) with addition of BSA in an aqueous phosphate buffer (pH = 7.0). (B) Plot of fluorescence intensity at 476 nm versus BSA concentration. (C) Linear region of the binding isotherm of 2 to BSA.

  34. (A) Change of FL spectrum of 3 with addition of BSA in an aqueous phosphate buffer. (B) Plot of FL intensity at 472 nm versus BSA concentration. (C) Linear region of the (I/I0 – 1)–[BSA] plot in panel B

  35. SUMMARY Aggregation-Induced Emission (AIE) An unusual but general phenomena observable in the molecules whose intramolecular rotations are restricted in the aggregative (solid) states • Silole/TPE: blue and green light emissions • Cyclobutene/fulvene: blue light emission • Pyran: yellow, green and red light emissions • Visco-, thermo-, vapo- and crystallochromism • Chemosensor and biolabel (DNA and protein) • Strong photoluminescence • Efficient electroluminescence • Good photovoltaic performance

  36. Scientific Publications on AIE Systems (2005–2006) • Chem. Commun.2005, 3583–3585. • J. Phys. Chem. B2005, 109, 10061–10066. • J. Inorg. Organomet. Polym. Mater.2005, 15, 287–291. • Chem. Res. Chinese Univ.2005, 21, 13–14. • Chem. Commun.2006, 1133–1135. • Chinese J. Lumin.2006, 27, 281–284. • J. Chinese Chem. Soc. 2006, 53, 243–246. • J. Polym. Sci., Part A: Polym. Chem.2006, 44, 2487–2498. • Mol. Cryst. Liq. Cryst. 2006, 446, 183–191. • Chem. Commun. 2006, in press. • Chem. Phys. Lett.2006, in press. • Nonlinear Opt. Quant. Opt.2006, in press. • Joined Publications • J. Phys. Chem. B2005, 109, 1135–1140. • Chem. Phys. Lett.2005, 402, 468–473. • J. Am. Chem. Soc.2005, 127, 6335–6346. • J. Phys. Chem. B2005, 109, 17086–17093. • Chem. Phys. Lett.2006, 419, 444–449.

  37. Invited Talks on AIE Systems (2005–2006) • The 7th International Symposium on Biotechnology Metal Complexes and Catalysis, Beijing, 17–20 August 2005. (Plenary Lecture) • The 88th Canadian Chemistry Conference and Exhibition, Saskatoon, Canada, 27 May–1 June 2005. • The 8th International Conference on Frontiers of Polymers and Advanced Materials, Cancun, Mexico, 22–28 April 2005. • APC-2005: The Fourth Asian Photochemistry Conference, Taipei, 5–12 Jan. 2005. • The 3rd International Conference on Photoresponsive Organics and Polymers, Val Thorens, France, 15–20 Jan. 2006. • Advanced Biotechnology Symposium, Multidisciplinary Research Center, Shantou University, 1 July 2006. • Supramolecular Systems Serial Symposium: Supramolecular Organic Luminescent Crystals and Solids, Changchun, 26–27 Dec. 2005. • Symposium on Organic and Polymeric Light-Emitting and Lasing Materials and Devices, Guangzhou, 7–11 Nov. 2005. • International Symposium on Organic Optoelectronic Materials and Thin Film Device, Changchun, 10–13 August 2005.

  38. Examples of Other AIE Systems (published by other research groups) • J. Am. Chem. Soc.2002, 124, 14410. • Angew. Chem., Int. Ed.2004,43, 6346. • J. Am. Chem. Soc.2004, 126, 10232. • Chem. Eur. J.2004, 10, 791. • J. Am. Chem. Soc.2005, 127, 9071. • J. Am. Chem. Soc.2005, 127, 10350. • J. Am. Chem. Soc.2005, 127, 9071. • J. Am. Chem. Soc.2005, 127, 11661. • J. Am. Chem. Soc.2005, 127, 10951. • J. Am. Chem. Soc.2005, 127, 9021. • J. Phys. Chem. B 2005, 109, 19627. • J. Phys. Chem. B2005, 109, 13472. • J. Phys. Chem. B2005, 109, 19627. • J. Phys. Chem. B2005, 109, 13472. • J. Org. Chem.2005, 70, 2778. • Inorg. Chem.2005, 44, 2003. • Chem.Commun.2005, 5465. • Chem. Commun.2005, 5465. • Angew. Chem. Int. Ed.2006, 45, 1404. • Chem. Eur. J.2006, 12, 3966. • Chem. Eur. J.2006, 12, 3287. • Adv. Funct. Mater.2006, 16, 681.

  39. Acknowledgements • Ministry of Science and Technology • Hong Kong Research Grants Council • National Science Foundation of China

More Related