two-photon absorption fluorescent probes
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Two-photon absorption fluorescent probes. Jan Lewtak , 15.03.2011. Two-Photon Absorbing Fluorophores. Maximizing 2PA cross-section; combining three structural elements: electron-donating groups. Two-Photon Absorbing Fluorophores. - PowerPoint PPT PresentationTRANSCRIPT
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Two-photon absorption fluorescent probes
Jan Lewtak, 15.03.2011
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Two-Photon Absorbing Fluorophores
Maximizing 2PA cross-section; combining three structural elements:• electron-donating groups
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Two-Photon Absorbing Fluorophores
Maximizing 2PA cross-section; combining three structural elements:• electron-donating groups
• electron-accepting groups
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Two-Photon Absorbing Fluorophores
Maximizing 2PA cross-section; combining three structural elements:• electron-donating groups
• electron-accepting groups
• conjugated -bridges
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Designing of fluorophores
a) Noncentrosymmetric dipolar architecture
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Designing of fluorophores
a) Noncentrosymmetric dipolar architecture
b) Centrosymmetric quadrupolar architectures
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Designing of fluorophoresc) Noncentrosymmetric octupolar architectures:
d) 3D - structures
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Dipolar Fluorescent Labels
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Dipolar Fluorescent Labels
1 GM = 10-50cm4s/photon
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Dipolar Fluorescent Labels
1 GM = 10-50cm4s/photon
Geoppert-Mayer, M. Ann. Phys. (Leipzig) 1931, 5, 273–294.
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Dipolar Fluorescent Labels
202 GM
Schafer-Hales, K. J.; Belfield, K. D.; Yao, S.; Frederiksen, P. K.; Hales, J. M.; Kolattukudy, P. E. J. Biomed. Opt. 2005, 10(5), 015402
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Dipolar Fluorescent Labels
202 GM 248 GM
Andrade, C. D.; Yanez, C. O.; Rodriguez, L.; Belfield, K. D. J. Org. Chem. 2010, 75(12), 3975–3982.
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Dipolar Fluorescent Labels
202 GM 248 GM
563 GMAndrade, C. D.; Yanez, C. O.; Rodriguez, L.; Belfield, K. D. J. Org. Chem. 2010, 75(12), 3975–3982.
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Dipolar Fluorescent Labels
202 GM 248 GM
563 GM 1146 GMBarsu,C.;Cheaib,R.;Chambert, S.;Queneau,Y.;Maury,O.;Cottet,D.; Wege,H.; Douady, J.; Bretonniere, Y.; Andraud, C. Org. Biomol. Chem.2010, 8(1), 142–150.Barsu, C.; Fortrie, R.; Nowika, K.; Baldeck, P. L.; Vial, J.-C.; Barsella, A.; Fort, A.; Hissler, M.; Bretonniere, Y.; Maury, O.; Andraud, C. Chem. Commun. 2006,
45, 4744–4746.
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Dipolar Fluorescent Labels
202 GM 248 GM
563 GM1146 GM
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Dipolar Fluorescent Labels
Action cross-section - strong dependence on solvent:
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Centrosymmetric Quadrupolar Fluorophores
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Centrosymmetric Quadrupolar Fluorophores
Centrosymmetric architecturescan yield very large 2PA cross-sections
Chui, C.-H.; Wang, Q.; Chow, W.-C.; Yuen,M. C.-W.; Wong, K.-L.;Kwok, W.-M.; Cheng, G. Y.-M.; Wong, R. S.-M.; Tong, S.-W.; Chan,K.-W.; Lau, F.-Y.; Lai, P. B.-S.; Lam, K.-H.; Fabbri, E.; Tao, X.-M.;Gambari, R.; Wong, W.-Y. Chem. Commun. 2010, 46(20), 3538–3540.
Albota,M.A.;Xu,C.;Webb,W.W. Appl.Opt. 1998, 37(31), 7352–7356.
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Centrosymmetric Quadrupolar Fluorophores
160 GM, inflexible
110 GM, conformationalfreedom
Planarity matters
Oligoethyleneglycol chains…
Hayek, A.; Bolze, F.;Nicoud, J. F.; Baldeck, P. L.;Mely,Y. Photochem. Photobiol. Sci. 2006, 5(1), 102–106.Hayek, A.; Grichine, A.; Huault, T.; Ricard, C.; Bolze, F.; van der Sanden, B.; Vial, J. C.;Mely, Y.; Duperray, A.; Baldeck, P. L.; Nicoud,J. F. Microsc. Res. Techn. 2007, 70(10), 880–885.
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Centrosymmetric Quadrupolar Fluorophores
314 GM
Sensitizer for Boron Neutron Capture Theraphy (BNCT).
Fluorescence lifetime imaging
335GM
1090 GM
Alkynyl spacers
Hayek, A.; Bolze, F.; Bourgogne, C.; Baldeck, P. L.; Didier, P.; Arntz, Y.; Mely, Y.; Nicoud, J. F. Inorg. Chem. 2009, 48(19), 9112–9119.Hawthorne, M. F. Angew. Chem., Int. Ed. 1993, 32(7), 950–984.
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Octupolar architecture
Strongly red-shifted emisson spectrum after Zn-polarization
Bhaskar, A.; Ramakrishna, G.; Twieg, R. J.; Goodson, T. J. Phys. Chem. C 2007, 111(40), 14607–14611
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Metal Complexes – 3D structures
10000 GM
214 GM
530 GM
3-fold increase compared to free ligands
Das, S.; Nag, A.; Goswami, D.; Bharadwaj, P. K. J. Am. Chem. Soc. 2006, 128(2), 402–403.Kamada, K.;Matsunaga, K.; Yoshino, A.; Ohta, K. J. Opt. Soc. Am. B 2003, 20(3), 529–537.Zhang, X.-B.; Feng, J.-K.; Ren, A.-M. J. Organomet. Chem. 2007 692(17), 3778–3787.Mazzucato, S.; Fortunati, I.; Scolaro, S.; Zerbetto, M.; Ferrante, C.; Signorini, R.; Pedron, D.; Bozio, R.; Locatelli, D.; Righetto, S.;Roberto, D.; Ugo, R.; Abbotto, A.; Archetti, G.; Beverina, L.; Ghezzi, S. Phys. Chem. Chem. Phys. 2007, 9(23), 2999–3005.
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Metal Complexes – 3D structures
2600 GM
2730 GM
Tridentate ligand – Zn(II) Terpyridine
From 96 to 186 GM
Ray, D.; Nag, A.; Goswami, D.; Bharadwaj, P. K. J. Lumin. 2009, 129 (3), 256–262.
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Metal Complexes – 3D structures
Water-soluble Eu complex, 92GM, 700nm
Two-photon excited luminescence image of cancer cells loaded with complex shown abovePicot, A.; D’Aleo, A.; Baldeck, P. L.; Grichine, A.; Duperray, A.; Andraud, C.; Maury, O. J. Am. Chem. Soc. 2008, 130(5), 1532–1533
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Metal-Responsive Fluorescent Probes
2150 GM – 45GM
1800 GM – 300GM
Two-photon absorbing indicators
While Mg(II) saturation
Pond, S. J. K.; Tsutsumi, O.; Rumi, M.; Kwon, O.; Zojer, E.; Bredas, J.-L.; Marder, S. R.; Perry, J. W. J. Am. Chem. Soc. 2004, 126(30), 9291–9306.
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Metal-Responsive Fluorescent ProbesHg(II)-responsive indicator
Complete fluorescence quenching
Huang, C. B.; Fan, J. L.; Peng, X. J.; Lin, Z. Y.; Guo, B. P.; Ren, A. X.; Cui, J. Q.; Sun, S. G. J. Photochem. Photobiol. 2008, 199(2-3), 144–149.
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Metal-Responsive Fluorescent ProbesHg(II)-responsive indicator
Complete fluorescence quenching
Calix[4]arene-based indicator
Kim, J. S.; Kim, H. J.; Kim, H. M.; Kim, S. H.; Lee, J. W.; Kim, S. K. Cho, B. R. J. Org. Chem. 2006, 71(21), 8016–8022.
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Summary
• building desired structure
• detection metal ions – selective and sensitive
• applications, i.e. TPEM (two-photon excitation microscopy)