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1.	Grishina, A D, et al. (author) Carbon Nanotube-containing Photorefractive Polymer Composites Operating at Telecommunication Wavelength 2007 In: High Energy Chemistry. ; 41:4, s. 267-273 Journal article (peer-reviewed)
2.	Grishina, AD, et al. (author) Infrared photorefractive composites based on polyvinylcarbazole and carbon nanotubes 2006 In: High Energy Chemistry. ; 40:5, s. 341-347 Journal article (peer-reviewed)
3.	Grishina, AD, et al. (author) Nonlinear optical properties of polyvinylcarbazole composites with graphene 2014 In: High Energy Chemistry. - 0018-1439 .- 1608-3148. ; 48:5, s. 337-342 Journal article (peer-reviewed)
4.	Grishina, AD, et al. (author) Photoelectric and photorefractive properties of polyvinylcarbazole composites with graphene in the visible spectral range 2013 In: High Energy Chemistry. - 0018-1439 .- 1608-3148. ; 47:4, s. 187-191 Journal article (peer-reviewed)abstract The photoelectric and photorefractive characteristics of polyvinylcarbazole (PVK) composites with 0.15 wt % graphene at a wavelength of 532 nm have been measured. The dependence of the quantum efficiency of generation of mobile charge carriers as determined from the photocurrent is well approximated by the Onsager equation calculated accurate to E (0) (3) for the quantum yield of thermalized electron-hole pairs of phi(0) = 1 and their initial separation radius of r (0) = 10.9 . The long-wavelength edge of optical absorption for PVK lies at 365 nm. Thus, the photogeneration of mobile carriers during illumination of the composite at 532 nm is due to photoexcitation of graphene. The measurement of the photorefractive properties has revealed that the two-beam coupling gain coefficient is I" = 50 cm(-1) at E (0) = 150 V/mu m and equal intensities of incident beams. It has been found that at E (0) = 83.3 V/mu m, the two-beam coupling gain coefficient increases from 8 to 14 cm(-1) as the ratio of incident beam intensities I (1)(0)/I (2)(0) increases from 1 to 2.4.
5.	Vannikov, AV, et al. (author) Photelectric, nonlinear optical, and photorefractive properties of polyimide doped with J-aggregates of cyanine dye 2002 In: Chemical Physics. ; 287:1-2, s. 261- Journal article (peer-reviewed)
6.	Vannikov, AV, et al. (author) Photorefractive composites based on nanocrystalline carbocyanine dye J-aggregates with a fast response time 2003 In: High Energy Chemistry. ; 37:6, s. 410-416 Journal article (peer-reviewed)
7.	Vannikov, AV, et al. (author) Photorefractive polyimide containing J-aggregates of thiacarbocyyanine dye 2002 In: Nonlinear Optics. ; 29:1, s. 7- Journal article (peer-reviewed)
8.	Vannikov, AV, et al. (author) Photorefractive properties of polyimide containing thiacarbocyyanine dye J-aggregates 2002 In: High Energy Chemistry. ; 36:6, s. 391- Journal article (peer-reviewed)

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Type of publication: journal article (8)

Type of content: peer-reviewed (8)

Author/Editor: Rychwalski, Rodney, ... (8); Savelev, VV (8); Grishina, AD (7); Krivenko, TV (7); Vannikov, AV (6); Pereshivko, LYa (4); show more...; Berendyaev, VI (4); Shapiro, BI (3); Pereshivko, L Ya (2); Licea Jimenez, Lilia ... (2); Vannikov, A V (2); Grishina, A D (1); Krivenko, T V (1); Shapiro, Shapiro BI (1); show less...

University: Chalmers University of Technology (8)

Language: English (8)

Research subject (UKÄ/SCB): Engineering and Technology (8)

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