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- Title
Carbon nanotube-containing photorefractive polymer composites operating at telecommunication wavelengths.
- Authors
Grishina, A.; Pereshivko, L.; Licea-Jiménez, L.; Krivenko, T.; Savel’ev, V.; Rychwalski, R.; Vannikov, A.
- Abstract
The field dependences of photocurrent, the two-beam coupling gain coefficient, and the grating formation time constant in polymer composites made from polyvinylcarbazole (PVK) and single-wall carbon nanotubes (SWNTs) were measured under the conditions of one-photon SWNT excitation with continuous laser radiation at a wavelength of 1550 nm. Carbon nanotubes are responsible for optical electronic absorption up to ∼2000 nm in this composite. The dependence of the quantum efficiency of generation of mobile charge carriers on the electric field E 0 as determined from the photocurrent coincides with the curves calculated via the Onsager equation expanded to the ( E 0)4 term, at a quantum yield of thermalized electron-hole pairs of η0 = 0.07 and a charge separation distance in the pair of r 0 = 9.8 Å. An analysis of the photorefractive characteristics showed that the admixture of fullerene C60 in an amount of 3 wt % to the PVK composite with 0.26 wt % SWNT leads to a twofold increase in the beam-coupling gain coefficient. In the PVK-matrix composite containing 0.26 wt % SWNT and 3 wt % C60, the beam-coupling gain coefficient Γ of a 1550-nm laser beam and the net gain Γ-α are 32 and ∼27 cm−1, respectively, at a constant field of E 0 = 140 V/μm.
- Subjects
POLYMERS; MACROMOLECULES; COMPOSITE materials; TELECOMMUNICATION; CARBON nanotubes
- Publication
High Energy Chemistry, 2007, Vol 41, Issue 4, p267
- ISSN
0018-1439
- Publication type
Article
- DOI
10.1134/S0018143907040091