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Abstract:

Diffraction gratings were recorded in biodegradable polymer films of poly(lactic acid) doped with the photoisomerisable azo-dye (Disperse Orange 3). It is shown that the diffraction efficiency of the recorded grating can be improved by 220% via an all-optical treatment. This all-optical treatment consists of a pre-irradiation of the sample with the writing laser beam at high power during a short period of time, preventing damage of the material, followed by a much longer inscription at relatively low power. Furthermore, it is shown that the addition of a small amount of 0.05 wt% of multi-walled carbon nanotubes to the photoresponsive polymer increases the maximum diffraction efficiency as well as the remanent efficiency by 20%. Finally, this last photoresponsive nano-composite is also sensitive to the pre-irradiation treatment. © 2015 Elsevier B.V. All rights reserved.

Registro:

Documento: Artículo
Título:Holographic gratings recorded in poly(lactic acid)/azo-dye films
Autor:Cambiasso, J.; Goyanes, S.; Ledesma, S.
Filiación:Image Processing Laboratory (LPI), Physics Department, FCEyN, UBA, Ciudad Universitaria 1428, Ciudad Autónoma de Buenos Aires, Argentina
Laboratory of Polymers and Composite Materials (LPandMC), Physics Department, IFIBA-CONICET FCEyN-UBA, Ciudad Universitaria 1428, Ciudad Autónoma de Buenos Aires, Argentina
Palabras clave:Azobenzene; Diffraction gratings; Efficiency enhancement; Azo dyes; Azobenzene; Biodegradable polymers; Carbon; Diffraction; Diffraction efficiency; Efficiency; Irradiation; Lactic acid; Laser beams; Multiwalled carbon nanotubes (MWCN); Nanocomposites; Polymer films; Yarn; All optical; Efficiency enhancement; High power; Photo-responsive; Photo-responsive polymer; Poly lactic acid; Preirradiation; Short periods; Diffraction gratings
Año:2015
Volumen:47
Página de inicio:72
Página de fin:77
DOI: http://dx.doi.org/10.1016/j.optmat.2015.06.002
Título revista:Optical Materials
Título revista abreviado:Opt Mater
ISSN:09253467
CODEN:OMATE
Registro:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09253467_v47_n_p72_Cambiasso

Referencias:

  • Bruder, F.K., Rainer, H., Rölle, T., Weiser, M.S., Fäcke, T., From the surface to volume: Concepts for the next generation of optical-holographic data-storage materials (2011) Angew. Chem. Int. Ed., 50, pp. 4552-4573
  • Sincerbox, G.T., History and physical principles (2000) Holographic Data Storage, pp. 3-20. , H.J. Coufal, D. Psaltis, G.T. Sincerbox, Springer Series in Optical Sciences Springer-Verlag
  • Zhao, Y., Ikeda, T., (2009) Smart Light-responsive Materials, , Wiley
  • Pan, X., Wang, C., Wang, C., Zhang, X., Image storage based on circular-polarization holography in an azobenzene side-chain liquid-crystlaline polymer (2008) Appl. Opt., 47 (1), pp. 93-98
  • Ono, H., Suzuki, K., Sasaki, T., Iwato, T., Emoto, A., Shioda, T., Kawatsuki, N., Reconstruction of polarized optical images in two- and three-dimensional vector holograms (2009) J. App. Phys., 106
  • Sasaki, T., Izawa, M., Noda, K., Nishioka, E., Kawatsuki, N., Ono, H., Temporal formation of optical anisotropy and surface relief during polarization holographic recording in polymethylmethacrylate with azobenzene side groups (2014) Appl. Phys. B, 114 (3), pp. 373-380
  • Rau, H., Photoisomerization of azobenzenes (1990) Photochemistry and Photophysics, pp. 3-47. , J.F. Rabek, CRC Press Ch. 1
  • Oliveira, O.N.J., Dos Santos, D.S., Jr., Balgoh, D.T., Zucolotto, V., Mendonça, C., Optical storage and surface-relief gratings in azobencene-containing nanostructured films (2005) Adv. Colloid Interface Sci., 116, pp. 179-192
  • Dhammika Bandara, H.M., Burdette, S.C., Photoisomerization in different classes of azobenzene (2012) Chem. Soc. Rev., 41, pp. 1809-1825
  • Allen, N.S., (2010) Handbook of Photochemistry and Photophysics of Polymer Materials, , Wiley
  • Mahimwalla, Z., Yager, K.G., Mamiya, J., Shishido, A., Priimagi, A., Barrett, C.J., Azobenzene photomechanics: Prospects and potential applications (2012) Polym. Bull., 69, pp. 967-1006
  • Todorov, T., Nikolova, L., Tomova, N., Polarization holography. 1: A new high-efficiency organic material with reversible photoinduced birefringence (1984) App. Opt., 23
  • Ramanujam, P.S., Nikolova, L., (2009) Polarization Holography, , 1st ed. Cambridge Univ. Press
  • Rochon, P., Gosselin, J., Natansohn, A., Xie, S., Optically induced and erased birefringence and dichroism in azoaromatic polymers (1992) Appl. Phys. Lett., 60 (1), pp. 4-5
  • Kim, D.Y., Tripathy, S.K., Li, L., Kumar, J., Laser-induced holographic surface relief gratings on nonlinear optical polymer films (1995) Appl. Phys. Lett., 66 (10), pp. 1166-1168
  • Viswanathan, N.K., Kim, D.Y., Bian, S., Williams, J., Liu, W., Li, L., Samuelson, L., Tripathy, S.K., Surface relief structures on azo polymer films (1999) J. Mater. Chem., 9, pp. 1941-1955
  • Schultz, B.M., Huber, M.R., Bieringer, T., Krausch, G., Zilker, S.J., Lenfth-scale dependence of surface relief gratings in azobenzene side-chain polymers (2001) Synthetic Metals, 124, pp. 155-157
  • Koskela, J.E., Vapaavuori, J., Hautala, J., Priimagi, A., Faul, C.F.J., Kaivola, M., Ras, R.H.A., Surface-relief gratings and stable birefringence inscribed using light of broad spectral range in supramolecular polymer-bisazobenzene complexes (2012) J. Phys. Chem. C, 116, pp. 2363-2370
  • Kravchenko, A., Shevchenko, A., Grahn, P., Ovchinnikov, V., Kaivola, M., Photolithographic periodic patterning of gold using azobenzene-functionalized polymers (2013) Thin Solid Films
  • Dall Agnol, F., Silva, J.R., Zílio, S.C., Oliveira, O.N.J., Giacometti, J.A., Temperature dependence of photoinduced birefringence in polystyrene doped with disperse red-1 (2002) Macromol. Rapid. Commun., 23, pp. 948-951
  • Díaz Costanzo, G., Ribba, L., Goyanes, S., Ledesma, S., Enhancement of the optical response in a biodegradable polymer/azo-dye film by the addition of carbon nanotubes (2014) J. Phys. D: Appl. Phys., 47 (13), p. 135103
  • Wu, X., Ngan Nguyen, T.T., Ledoux-Rak, I., Nguyen, C.T., Lai, N.D., Optically accelerated formation of one- and two-dimensional holographic surface relief gratings on dr1/pmma (2013) Holography - Basic Principles and Contemporary Applications
  • Díaz Costanzo, G., Ledesma, S., Mondragon, I., Goyanes, S., Stable solutions of multiwalled carbon nanotubes using an azobenzene dye (2010) J. Phys. Chem. C, 114, pp. 14347-14352
  • Lagugné-Labarthet, F., Buffeteau, T., Sourisseau, C., Azopolymer holographic diffraction gratings: Time dependent analyses of the diffraction efficiency, birefringence, and surface modulation induced by two linearly polarized interfering beams (1999) J. Phys. Chem. B, 103, pp. 6690-6699
  • Rochon, P., Batalla, E., Natansohn, A., Optically induced surface gratings on azoaromatic polymer films (1995) Appl. Phys. Lett., 66 (2), pp. 136-138
  • Sobolewska, A., Bratkiewicz, S., Miniewicz, A., Schab-Balcerzak, E., Polarization dependence of holographic grating recording in azobenzene-functionalized polymers monitored by visible and infrared light (2010) J. Phys. Chem. B, 114, pp. 9751-9760
  • Natansohn, A., Rochon, P., Photoinduced motions in azo-containing polymers (2002) Chem. Rev., 102, pp. 4139-4175
  • Lagugné-Labarthet, F., Labarthet, F., Buffeteau, T., Sourisseau, C., Optical erasures and unusual surface reliefs of holographic gratings inscribed on thin films of an azobenzene functionalized polymer (2002) Phys. Chem., 4, pp. 2020-2029
  • Heydari, E., Mohajerani, E., Shams, A., All optical switching in azo-polymer planar waveguide (2011) Opt. Commun., 284, pp. 1208-1212
  • Bieringer, T., Photoaddressable polymers (2000) Holographic Data Storage, pp. 209-230. , H.J. Coufal, D. Psaltis, G.T. Sincerbox, Springer Series in Optical Sciences Springer-Verlag
  • Tawa, K., Kamada, K., Sakaguchi, T., Ohta, K., Local environment dependence of photoinduced anisotropy observed in azo-dye-doped polymer films (2000) Polymer, 41 (9), pp. 3235-3242
  • Luca, A.R., Moleavin, I.A., Hurduc, N., Hamel, M., Rocha, L., Mass transport in low tg azo-polymers: Effect on the surface relief grating induction and stability of additional side chain groups able to generate physical interactions (2014) Appl. Surface Sci., 290, pp. 172-179
  • Huang, K., (1987) Statistical Mechanics, , 2nd ed. Wiley
  • Liu, Y.J., Dai, H.T., Sun, X.W., Holographic fabrication of azo-dye-functionalized photonic structures (2011) J. Mat. Chem., 21, pp. 2982-2986
  • Yavrian, A., Asatryan, K., Galstian, T., Piché, M., Real-time holographic image restoration in azo dye doped polymer films (2004) Opt. Commun., 251, pp. 286-291
  • Aronzon, D., Levy, E.P., Collings, P.J., Chanishvill, A., Chilaya, G., Petriashvily, G., Trans-cis isomerization of an azoxybenzene liquid crystal (2007) Liquid Crystals, 34 (6), pp. 707-718
  • Bortolus, P., Monti, S., Cis-trans photoisomerization of azobenzene. Solvent and triplet donor effects (1979) J. Phys. Chem., 83 (6), pp. 648-652

Citas:

---------- APA ----------
Cambiasso, J., Goyanes, S. & Ledesma, S. (2015) . Holographic gratings recorded in poly(lactic acid)/azo-dye films. Optical Materials, 47, 72-77.
http://dx.doi.org/10.1016/j.optmat.2015.06.002
---------- CHICAGO ----------
Cambiasso, J., Goyanes, S., Ledesma, S. "Holographic gratings recorded in poly(lactic acid)/azo-dye films" . Optical Materials 47 (2015) : 72-77.
http://dx.doi.org/10.1016/j.optmat.2015.06.002
---------- MLA ----------
Cambiasso, J., Goyanes, S., Ledesma, S. "Holographic gratings recorded in poly(lactic acid)/azo-dye films" . Optical Materials, vol. 47, 2015, pp. 72-77.
http://dx.doi.org/10.1016/j.optmat.2015.06.002
---------- VANCOUVER ----------
Cambiasso, J., Goyanes, S., Ledesma, S. Holographic gratings recorded in poly(lactic acid)/azo-dye films. Opt Mater. 2015;47:72-77.
http://dx.doi.org/10.1016/j.optmat.2015.06.002