Abstract

Information properties of recording media for photothermoplastic techniques were investigated. The films consisted of oligomer composites based on carbazole containing co-oligomers of linear and radial structures with branching centers on silicon and germanium atoms. It was ascertained that the media based on the radial oligomers possessed high holographic sensitivity because of the high plasticity and its ability to accumulate volume electric charge during the exposure. Examples of practical applications of the investigated recording media are presented.

© 2014 Optical Society of America

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  1. G. Saxby, Practical Holography, 3rd ed. (IOP, 2004).
  2. C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
    [CrossRef]
  3. S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
    [CrossRef]
  4. M. Lanzi, L. Paganin, and D. Caretti, “New photoactive oligo- and poly-alkylthiophenes,” Polymer 49, 4942–4948 (2008).
    [CrossRef]
  5. N. A. Davidenko, A. A. Ishchenko, A. V. Kulinich, and S. L. Studzinsky, “Effect of concentration of anionic polymethine dye in poly-N-epoxypropylcarbazole polymer film composite on the spectral-luminescent properties and photoconductivity,” Spectrochim. Acta A Mol. Biomol. Spectrosc. 98, 271–274 (2012).
    [CrossRef]
  6. N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
    [CrossRef]
  7. N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
    [CrossRef]
  8. N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
    [CrossRef]
  9. P. Hariharan, Basics of Holography (Cambridge University, 2002).
  10. P. M. Borsenberger and D. S. Weiss, Photoreceptors for Xerography (Marcel Dekker, 1998).
  11. N. Davidenko, I. Davidenko, A. Ishchenko, A. Kulinich, V. Pavlov, S. Studzinsky, and N. Chuprina, “Reversible holographic recording media based on polymeric composites and their use in energy-saving technologies,” Appl. Opt. 51, C48–C54 (2012).
    [CrossRef]
  12. M. Pope and C. Swenberg, Electronic Processes in Organic Crystals and Polymers, 2nd ed. (Oxford University, 1999).
  13. K. Horie, H. Ushiki, and F. Winnik, Molecular Photonics (Wiley-VCH, 2000).
  14. N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
    [CrossRef]
  15. D. Danovich, Y. Apeloig, and S. Shaik, “A reliable and inexpensive method for calculating ionization potentials and electron affinities of radicals and molecules,” J. Chem. Soc. Perkin Trans. 2, 321–330 (1993).
    [CrossRef]
  16. Yu. P. Getmanchuk, N. A. Davidenko, L. R. Kunitskaya, and E. V. Mokrinskaya, “Information media based on electron donor oligomers,” Polym. Sci., Ser. B 55, 88–94 (2013).
  17. R. M. Schaffert, Electrophotography (Wiley, 1981).
  18. J. Rosen, ed., Holography, Research and Technologies (InTech, 2011).
  19. http://www.youtube.com/watch?v=EZynG_qkGvM .
  20. N. Davidenko, A. Ishchenko, and N. Kuvshinskii, Photonics of Molecular Semiconductor Composites Based on Organic Dyes (Naukova Dumka, 2005) [in Russian].
  21. N. Kuvshinskii, N. Davidenko, and V. Komko, Photonics of Amorphous Molecular Semiconductors (Lybid, 1994) [in Russian].

2013

Yu. P. Getmanchuk, N. A. Davidenko, L. R. Kunitskaya, and E. V. Mokrinskaya, “Information media based on electron donor oligomers,” Polym. Sci., Ser. B 55, 88–94 (2013).

2012

N. A. Davidenko, A. A. Ishchenko, A. V. Kulinich, and S. L. Studzinsky, “Effect of concentration of anionic polymethine dye in poly-N-epoxypropylcarbazole polymer film composite on the spectral-luminescent properties and photoconductivity,” Spectrochim. Acta A Mol. Biomol. Spectrosc. 98, 271–274 (2012).
[CrossRef]

N. Davidenko, I. Davidenko, A. Ishchenko, A. Kulinich, V. Pavlov, S. Studzinsky, and N. Chuprina, “Reversible holographic recording media based on polymeric composites and their use in energy-saving technologies,” Appl. Opt. 51, C48–C54 (2012).
[CrossRef]

2011

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

2009

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

2008

M. Lanzi, L. Paganin, and D. Caretti, “New photoactive oligo- and poly-alkylthiophenes,” Polymer 49, 4942–4948 (2008).
[CrossRef]

2006

C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
[CrossRef]

2005

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

1993

D. Danovich, Y. Apeloig, and S. Shaik, “A reliable and inexpensive method for calculating ionization potentials and electron affinities of radicals and molecules,” J. Chem. Soc. Perkin Trans. 2, 321–330 (1993).
[CrossRef]

S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
[CrossRef]

Apeloig, Y.

D. Danovich, Y. Apeloig, and S. Shaik, “A reliable and inexpensive method for calculating ionization potentials and electron affinities of radicals and molecules,” J. Chem. Soc. Perkin Trans. 2, 321–330 (1993).
[CrossRef]

Borsenberger, P. M.

P. M. Borsenberger and D. S. Weiss, Photoreceptors for Xerography (Marcel Dekker, 1998).

Braun, D.

S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
[CrossRef]

Caretti, D.

M. Lanzi, L. Paganin, and D. Caretti, “New photoactive oligo- and poly-alkylthiophenes,” Polymer 49, 4942–4948 (2008).
[CrossRef]

Chuprina, N.

N. Davidenko, I. Davidenko, A. Ishchenko, A. Kulinich, V. Pavlov, S. Studzinsky, and N. Chuprina, “Reversible holographic recording media based on polymeric composites and their use in energy-saving technologies,” Appl. Opt. 51, C48–C54 (2012).
[CrossRef]

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

Chuprina, N. G.

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Danovich, D.

D. Danovich, Y. Apeloig, and S. Shaik, “A reliable and inexpensive method for calculating ionization potentials and electron affinities of radicals and molecules,” J. Chem. Soc. Perkin Trans. 2, 321–330 (1993).
[CrossRef]

Davidenko, I.

Davidenko, N.

N. Davidenko, I. Davidenko, A. Ishchenko, A. Kulinich, V. Pavlov, S. Studzinsky, and N. Chuprina, “Reversible holographic recording media based on polymeric composites and their use in energy-saving technologies,” Appl. Opt. 51, C48–C54 (2012).
[CrossRef]

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

N. Kuvshinskii, N. Davidenko, and V. Komko, Photonics of Amorphous Molecular Semiconductors (Lybid, 1994) [in Russian].

N. Davidenko, A. Ishchenko, and N. Kuvshinskii, Photonics of Molecular Semiconductor Composites Based on Organic Dyes (Naukova Dumka, 2005) [in Russian].

Davidenko, N. A.

Yu. P. Getmanchuk, N. A. Davidenko, L. R. Kunitskaya, and E. V. Mokrinskaya, “Information media based on electron donor oligomers,” Polym. Sci., Ser. B 55, 88–94 (2013).

N. A. Davidenko, A. A. Ishchenko, A. V. Kulinich, and S. L. Studzinsky, “Effect of concentration of anionic polymethine dye in poly-N-epoxypropylcarbazole polymer film composite on the spectral-luminescent properties and photoconductivity,” Spectrochim. Acta A Mol. Biomol. Spectrosc. 98, 271–274 (2012).
[CrossRef]

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Dehtarenko, S. V.

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

Dekhtyarenko, S. V.

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Getmanchuk, Yu. P.

Yu. P. Getmanchuk, N. A. Davidenko, L. R. Kunitskaya, and E. V. Mokrinskaya, “Information media based on electron donor oligomers,” Polym. Sci., Ser. B 55, 88–94 (2013).

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Hariharan, P.

P. Hariharan, Basics of Holography (Cambridge University, 2002).

Heeger, A. J.

S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
[CrossRef]

Horie, K.

K. Horie, H. Ushiki, and F. Winnik, Molecular Photonics (Wiley-VCH, 2000).

Huang, C.

C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
[CrossRef]

Ishchenko, A.

N. Davidenko, I. Davidenko, A. Ishchenko, A. Kulinich, V. Pavlov, S. Studzinsky, and N. Chuprina, “Reversible holographic recording media based on polymeric composites and their use in energy-saving technologies,” Appl. Opt. 51, C48–C54 (2012).
[CrossRef]

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

N. Davidenko, A. Ishchenko, and N. Kuvshinskii, Photonics of Molecular Semiconductor Composites Based on Organic Dyes (Naukova Dumka, 2005) [in Russian].

Ishchenko, A. A.

N. A. Davidenko, A. A. Ishchenko, A. V. Kulinich, and S. L. Studzinsky, “Effect of concentration of anionic polymethine dye in poly-N-epoxypropylcarbazole polymer film composite on the spectral-luminescent properties and photoconductivity,” Spectrochim. Acta A Mol. Biomol. Spectrosc. 98, 271–274 (2012).
[CrossRef]

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Komko, V.

N. Kuvshinskii, N. Davidenko, and V. Komko, Photonics of Amorphous Molecular Semiconductors (Lybid, 1994) [in Russian].

Kostenko, L.

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

Kostenko, L. I.

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Kozinets, A. V.

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

Kozinetz, A. V.

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Kulinich, A.

N. Davidenko, I. Davidenko, A. Ishchenko, A. Kulinich, V. Pavlov, S. Studzinsky, and N. Chuprina, “Reversible holographic recording media based on polymeric composites and their use in energy-saving technologies,” Appl. Opt. 51, C48–C54 (2012).
[CrossRef]

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

Kulinich, A. V.

N. A. Davidenko, A. A. Ishchenko, A. V. Kulinich, and S. L. Studzinsky, “Effect of concentration of anionic polymethine dye in poly-N-epoxypropylcarbazole polymer film composite on the spectral-luminescent properties and photoconductivity,” Spectrochim. Acta A Mol. Biomol. Spectrosc. 98, 271–274 (2012).
[CrossRef]

Kunitskaya, L. R.

Yu. P. Getmanchuk, N. A. Davidenko, L. R. Kunitskaya, and E. V. Mokrinskaya, “Information media based on electron donor oligomers,” Polym. Sci., Ser. B 55, 88–94 (2013).

Kurdyukova, I. V.

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

Kuvshinskii, N.

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

N. Davidenko, A. Ishchenko, and N. Kuvshinskii, Photonics of Molecular Semiconductor Composites Based on Organic Dyes (Naukova Dumka, 2005) [in Russian].

N. Kuvshinskii, N. Davidenko, and V. Komko, Photonics of Amorphous Molecular Semiconductors (Lybid, 1994) [in Russian].

Lanzi, M.

M. Lanzi, L. Paganin, and D. Caretti, “New photoactive oligo- and poly-alkylthiophenes,” Polymer 49, 4942–4948 (2008).
[CrossRef]

Li, C.

C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
[CrossRef]

Li, J.

C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
[CrossRef]

Li, Y.

C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
[CrossRef]

Liu, H.

C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
[CrossRef]

Melenevskii, D.

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

Mokrinskaya, E. V.

Yu. P. Getmanchuk, N. A. Davidenko, L. R. Kunitskaya, and E. V. Mokrinskaya, “Information media based on electron donor oligomers,” Polym. Sci., Ser. B 55, 88–94 (2013).

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Mysyk, D.

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

Mysyk, R.

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

Paganin, L.

M. Lanzi, L. Paganin, and D. Caretti, “New photoactive oligo- and poly-alkylthiophenes,” Polymer 49, 4942–4948 (2008).
[CrossRef]

Pavlov, V.

N. Davidenko, I. Davidenko, A. Ishchenko, A. Kulinich, V. Pavlov, S. Studzinsky, and N. Chuprina, “Reversible holographic recording media based on polymeric composites and their use in energy-saving technologies,” Appl. Opt. 51, C48–C54 (2012).
[CrossRef]

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

Pope, M.

M. Pope and C. Swenberg, Electronic Processes in Organic Crystals and Polymers, 2nd ed. (Oxford University, 1999).

Sariciftci, S.

S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
[CrossRef]

Saxby, G.

G. Saxby, Practical Holography, 3rd ed. (IOP, 2004).

Schaffert, R. M.

R. M. Schaffert, Electrophotography (Wiley, 1981).

Shaik, S.

D. Danovich, Y. Apeloig, and S. Shaik, “A reliable and inexpensive method for calculating ionization potentials and electron affinities of radicals and molecules,” J. Chem. Soc. Perkin Trans. 2, 321–330 (1993).
[CrossRef]

Skryshevskii, V. A.

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Skryshevsky, V. A.

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

Skulskii, N. A.

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Srdanov, V. I.

S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
[CrossRef]

Stucky, G.

S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
[CrossRef]

Studzinskii, S. L.

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Studzinsky, S.

Studzinsky, S. L.

N. A. Davidenko, A. A. Ishchenko, A. V. Kulinich, and S. L. Studzinsky, “Effect of concentration of anionic polymethine dye in poly-N-epoxypropylcarbazole polymer film composite on the spectral-luminescent properties and photoconductivity,” Spectrochim. Acta A Mol. Biomol. Spectrosc. 98, 271–274 (2012).
[CrossRef]

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

Swenberg, C.

M. Pope and C. Swenberg, Electronic Processes in Organic Crystals and Polymers, 2nd ed. (Oxford University, 1999).

Tretyak, O. V.

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Ushiki, H.

K. Horie, H. Ushiki, and F. Winnik, Molecular Photonics (Wiley-VCH, 2000).

Wang, N.

C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
[CrossRef]

Weiss, D. S.

P. M. Borsenberger and D. S. Weiss, Photoreceptors for Xerography (Marcel Dekker, 1998).

Winnik, F.

K. Horie, H. Ushiki, and F. Winnik, Molecular Photonics (Wiley-VCH, 2000).

Wudl, F.

S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
[CrossRef]

Zhang, C.

S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
[CrossRef]

Zhu, D.

C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
[CrossRef]

Appl. Opt.

Appl. Phys. Lett.

S. Sariciftci, D. Braun, C. Zhang, V. I. Srdanov, A. J. Heeger, G. Stucky, and F. Wudl, “Semiconducting polymer-buckminsterfullerene heterojunctions: diodes, photodiodes, and photovoltaic cells,” Appl. Phys. Lett. 62, 585–587 (1993).
[CrossRef]

High Energy Chem.

N. Davidenko, A. Ishchenko, L. Kostenko, N. Kuvshinskii, A. Kulinich, D. Melenevskii, D. Mysyk, R. Mysyk, V. Pavlov, and N. Chuprina, “Holographic recording media based on systems with intramolecular and intermolecular charge transfer,” High Energy Chem. 39, 254–262 (2005).
[CrossRef]

J. Appl. Spectrosc.

N. A. Davidenko, A. A. Ishchenko, A. V. Kozinets, L. I. Kostenko, I. V. Kurdyukova, E. V. Mokrinskaya, S. L. Studzinskii, and N. G. Chuprina, “Sensitization of photoconductivity in ferrocene-containing oligomer by squarylium and merocyanine dyes,” J. Appl. Spectrosc. 78, 129–133 (2011).
[CrossRef]

J. Chem. Soc. Perkin Trans.

D. Danovich, Y. Apeloig, and S. Shaik, “A reliable and inexpensive method for calculating ionization potentials and electron affinities of radicals and molecules,” J. Chem. Soc. Perkin Trans. 2, 321–330 (1993).
[CrossRef]

Macromolecules

C. Huang, N. Wang, Y. Li, C. Li, J. Li, H. Liu, and D. Zhu, “A new class of conjugated polymers having porphyrin, poly(p-phenylenevinylene), and fullerene units for efficient electron transfer,” Macromolecules 39, 5319–5325 (2006).
[CrossRef]

Mol. Cryst. Liq. Cryst.

N. A. Davidenko, S. V. Dehtarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinsky, V. A. Skryshevsky, O. V. Tretyak, and N. G. Chuprina, “Sensitization of photosemiconducting properties of holographic recording media based on glycidylcarbazole cooligomers by organic dyes,” Mol. Cryst. Liq. Cryst. 535, 148–155 (2011).
[CrossRef]

Polym. Sci., Ser. B

Yu. P. Getmanchuk, N. A. Davidenko, L. R. Kunitskaya, and E. V. Mokrinskaya, “Information media based on electron donor oligomers,” Polym. Sci., Ser. B 55, 88–94 (2013).

Polymer

M. Lanzi, L. Paganin, and D. Caretti, “New photoactive oligo- and poly-alkylthiophenes,” Polymer 49, 4942–4948 (2008).
[CrossRef]

Semiconductors

N. A. Davidenko, S. V. Dekhtyarenko, Yu. P. Getmanchuk, A. A. Ishchenko, A. V. Kozinetz, L. I. Kostenko, E. V. Mokrinskaya, S. L. Studzinskii, V. A. Skryshevskii, N. A. Skulskii, O. V. Tretyak, and N. G. Chuprina, “Photosemiconducting properties of holographic media based on ferrocenyl-containing cooligomers of glycidyl carbazole with these oligomers sensitized organic dye,” Semiconductors 43, 1473–1478 (2009).
[CrossRef]

Spectrochim. Acta A Mol. Biomol. Spectrosc.

N. A. Davidenko, A. A. Ishchenko, A. V. Kulinich, and S. L. Studzinsky, “Effect of concentration of anionic polymethine dye in poly-N-epoxypropylcarbazole polymer film composite on the spectral-luminescent properties and photoconductivity,” Spectrochim. Acta A Mol. Biomol. Spectrosc. 98, 271–274 (2012).
[CrossRef]

Other

G. Saxby, Practical Holography, 3rd ed. (IOP, 2004).

P. Hariharan, Basics of Holography (Cambridge University, 2002).

P. M. Borsenberger and D. S. Weiss, Photoreceptors for Xerography (Marcel Dekker, 1998).

R. M. Schaffert, Electrophotography (Wiley, 1981).

J. Rosen, ed., Holography, Research and Technologies (InTech, 2011).

http://www.youtube.com/watch?v=EZynG_qkGvM .

N. Davidenko, A. Ishchenko, and N. Kuvshinskii, Photonics of Molecular Semiconductor Composites Based on Organic Dyes (Naukova Dumka, 2005) [in Russian].

N. Kuvshinskii, N. Davidenko, and V. Komko, Photonics of Amorphous Molecular Semiconductors (Lybid, 1994) [in Russian].

M. Pope and C. Swenberg, Electronic Processes in Organic Crystals and Polymers, 2nd ed. (Oxford University, 1999).

K. Horie, H. Ushiki, and F. Winnik, Molecular Photonics (Wiley-VCH, 2000).

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Figures (10)

Fig. 1.
Fig. 1.

Normalized absorption spectrum of the films GCBE, RTS, and RTG containing 3 wt. % UE-DDFC.

Fig. 2.
Fig. 2.

Picture of the small-sized holographic device.

Fig. 3.
Fig. 3.

Dependencies of the maximal η value on light energy absorbed in HRM during holographic recording for HRM based on GCBE (1), RTS (2), and RTG (3).

Fig. 4.
Fig. 4.

(Left) Picture of the surface area of the OC film after recording the hologram of the flat wavefront in HRM based on RTS; (Right) picture of the screen where the holographic image of the flat wavefront was projected.

Fig. 5.
Fig. 5.

Images of the cup (left) before and (right) immediately after placing some drops of hot water inside. In the right image bright and dark fringes appeared, which shows the changes in the linear dimensions of the cup as a result of the heat distribution in its walls. Over time, the interference fringes disappear indicating the leveling of cup temperature. The HRM based on RTG was used.

Fig. 6.
Fig. 6.

Picture of the interferogram of the metallic plate at (left) small and (right) increasing mechanical loads. The HRM based on RTG was used.

Fig. 7.
Fig. 7.

Picture of the interferogram of a (left) conflagrated candle and (right) burning candle. The HRM based on RTG was used.

Fig. 8.
Fig. 8.

Diagrams demonstrating the (a) sequence of electric voltage application, (b) illumination with light, and (c) measurement of the current in the samples ITO/OC/Ag.

Fig. 9.
Fig. 9.

Dependencies η(t1) (1, 2) and η (t2) (3, 4) in HRM with OC based on RTS (1, 3) and RTG (2, 4) and dependencies Q/Qmax(t1) (5) and Q/Qmax(t2) (6) in the samples ITO/OC/Ag with OC based on RTS and RTG.

Fig. 10.
Fig. 10.

Normalized absorption spectra of the films GCBE with CICT and structural formula of the CICT.

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