Vol. 26, issue 10, article # 10

Aimukhanov A.K., Ibraev N.Kh., Seliverstova E.V., Kopylova T.N., Gadirov R.M., Tel'minov E.N., Solodova T.A., Degtyarenko K.M., Tabakaev D.S., Ponyavina E.N., Alekseeva V.I., Marinina L.E., Savvina L.P. Spectral-luminescence and generation properties of organic luminophors of red range of spectra. // Optika Atmosfery i Okeana. 2013. V. 26. No. 10. P. 871–876 [in Russian].
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Abstract:

Spectral-luminescent and lasing properties of chromene 3 (CAS No. 52372-39-1) and chromene 13 (CAS No. 52372-36-8) in solutions and solid matrices are investigated. The regularities of their changes depended on the molecular structure and intermolecular interactions have been studied. It is shown that the fluorescence quantum yields of the studied compounds are high (0.9%). The studied compounds emit in red spectral range in solutions, films and matrices of PMMA (> 600 nm). The lasing efficiency of solid active media based on chromene 3 pumped by the second harmonic of YAG-Nd3+ in transverse pumping reaches 45%. Operating lifetime is comparable to the best-known organic solid state active media that emit in the red spectral range (over 30,000 pulses at one point at decreased efficiency by 5-10%). For chromene 13 lasing efficiency in solutions and matrices is lower (28% and 21%), operating lifetime of the solid active medium is high. The possibility of obtaining the generation of the compounds in thin films was studied.

Keywords:

solid state active media, lasing, fluorescence, operating lifetime, thin-film laser

References:

1. García-Moreno I., Wang L., Costela A., Bañuelos J., López-Arbeloa I., Xiao Y. Synthesis and Optical and Redox Properties of Symmetric and Asymmetric BODIPYs // Chem. Phys. Chem. 2012. V. 13, N 17, P. 3923–3931.
2. Enciso E., Martín V., Bañuelos J., Arbeloa I.L., Costela A., Garcia-Moreno I. Photophysical and lasing properties of Rhodamine 6G confined in polymeric nanoparticles // J. Phys. Chem. C. 2011. V. 115, N 10. P. 3926–3933.
3. Bañuelos J., Arbeloa F.L., Liras M., Costela A., Garcia- Moreno I., Arbeloa I.L. Difluoro-boron-triaza-anthracene: a laser dye in the blue region. Theoretical simulation of alternative difluoro-boron-diaza-aromatic systems // Phys. Chem. Chem. Phys. 2011. V. 13, N 8. P. 3437–3445.
4. Treibs A., Kreuzer F.-H. Difluorboryl-Komplexe von Di- und Tripyrrylmethenen // Justus Liebigs Ann. Chem. 1968. V. 718, N 1. P. 208–223.
5. Garcia-Moreno I., Costela A., Martin V., Pintado-Sierra M., Sastre R. Materials for a Reliable Solid-State Dye Laser at the Red Spectral Edge // Advan. Function. Materials. 2009. V. 19, N 16.  P. 2547–2552.
6. Zhang D., Martín V., García-Moreno I., Costela A., Pérez-Ojeda M.E., Xiao Yi. Development of excellent long-wavelength BODIPY laser dyes with a strategy that combines extending π-conjugation and tuning ICT effect // Phys. Chem. Chem. Phys. 2011. V. 13, N 28. P. 13026–13033.
7. García-Moreno I., Costela A., Pintado-Sierra M., Mar-tín V., Sastre R. Enhanced laser action of Perylene-Red doped polymeric materials // Opt. Express. 2009. V. 17, N 15. P. 12777–12784.
8. Cerdán L., Enciso E., Martín V., Bañuelos J., López-Arbeloa I., Costela A., Garcia-Moreno I. FRET Assisted Laser Emission in Colloidal Suspensions of Dye-Doped Latex Nanoparticles // Nature Photonics. 2012. V. 6, N 9. P. 621–626.
9. Perez-Ojeda M.E., Thivierge C., Marting V., Costela A., Burgess K., Garcia-Moreno I. Highly efficient and photostable photonic materials from diiodinated BODIPY laser dyes // Opt. Materials Express. 2011. V. 1, N 2. P. 243–251.
10. Xiao Y., Zhang D., Qian X., Costela A., Garcia-Moreno I., Martin V., Perez-Ojeda M.E., Bañuelos J., Gartzia L., Arbeloa I.L. Unprecedented laser action from energy transfer in multichromophoric BODIPY cassettes // Chem. Commun. 2011. V. 47, N 41. P. 11513–11515.
11. Shimizu S., Iino T., Araki Y., Kobayashi N. Pyrrolo-pyrrole aza-BODIPY analogues: a facile synthesis and intense fluorescence // Chem. Commun. 2013. V. 49, N 16. P. 1621–1623.
12. Shen Z., Röhr H., Rurack K., Uno H., Spieles M., Schulz B., Reck G., Ono N. Boron-diindomethene (BDI) dyes and their tetrahydrobicyclo precursors – en route to a new class of highly emissive fluorophores for the red spectral range // Chemistry-A European J. 2004. V. 19, N 10. P. 4853–4871.
13. Garcia-Moreno I., Costela A., Pintado-Sierra M., Mar-tin V., Sastre R. Efficient Red-Edge Materials Photosensitized by Rhodamine 640 // J. Phys. Chem. B. 2009. V. 113, N 31. P. 10611–10618.
14. Cposob poluchenija 3-(benzazolil-)zameshhennyh-7-di-jetilaminokumarinov: Pat. 2095384, C09B57/02, Alekseeva V.I., Kalija O.L., Luk'janec E.A., Marinina L.E., Savvina L.P., Tkach I.I. Tovarishhestvo s ogranichennoj otvetstvennost'ju Nauchno-proizvodstvennaja firma «BJeTA», N93035094/04, zajavl. 06.07.1993, opubl. 10.11.1997.
15. Sauers R.R., Husain S.N., Piechowski A.P., Bird G.R. Shaping the absorption and fluorescence bands of a class of efficient, photoactive chromophores: synthesis and properties of some new 3h-xanthen-3-ones // Dyes and pigments. 1987. V. 8, N 1. P. 35–53.
16. Kopylova T.N., Anufrik S.S., Majer G.V., Solodova T.A., Tel'minov E.N., Degtjarenko K.M., Samsonova L.G., Gadirov R.M., Nikonov S.Ju., Ponjavina E.N., Tarkovskij V.V., Sazonko G.G. Issledovanie harakteristik tverdotel'nyh aktivnyh sred na osnove pirrometena 567 // Izv. vuzov. Fiz. 2012. V. 55, N 10. P. 32–37.
17. Gadirov R.M., Samsonova L.G., Kopylova T.N., Selivanov N.I., Hilja V.P., Ishhenko V.V. Cpektral'no-ljuminescentnye svojstva zameshhennyh 7-gidroksikumarina i ih sensornye vozmozhnosti // Izv. vuzov. Fiz. 2013. V. 56, N 2. P. 89–95.
18. Golini C.M., Williams B.W., Foresman J.B. Further Solvatochromic, Thermochromic, and Theoretical Studies on Nile Red // J. of Fluorescence. 1998. V. 8, N 4. P. 395–404.
19. Costela A., Garcia-Moreno I., Sastre R. Polymeric solid- state dye lasers: Recent developments // Phys. Chem. Chem. Phys. 2003. V. 5, N 21. P. 4745–4763.
20. Artjuhov V.Ja., Kopylova T.N., Majer G.V. Kompleksnyj podhod k razrabotke i sozdaniju aktivnyh sred perestraivaemyh lazerov // Optika atmosf. i okeana. 2010. V. 23, N 10, P. 913–918.

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