Advances of the Holographic Technique to Test the Basic Properties of the Thin-Film Organics: Refractivity Change and Novel Mechanism of the Nonlinear Attenuation Prediction
- PMID: 39339110
- PMCID: PMC11435785
- DOI: 10.3390/polym16182645
Advances of the Holographic Technique to Test the Basic Properties of the Thin-Film Organics: Refractivity Change and Novel Mechanism of the Nonlinear Attenuation Prediction
Abstract
A large number of the thin-film organic structures (polyimides, 2-cyclooctylarnino-5-nitropyridine, N-(4-nitrophenyl)-(L)-prolinol, 2-(n-Prolinol)-5-nitropyridine) sensitized with the different types of the nano-objects (fullerenes, carbon nanotubes, quantum dots, shungites, reduced graphene oxides) are presented, which are studied using the holographic technique under the Raman-Nath diffraction conditions. Pulsed laser irradiation testing of these materials predicts a dramatic increase of the laser-induced refractive index, which is in several orders of the magnitude greater compared to pure materials. The estimated nonlinear refraction coefficients and the cubic nonlinearities for the materials studied are close to or larger than those known for volumetric inorganic crystals. The role of the intermolecular charge transfer complex formation is considered as the essential in the refractivity increase in nano-objects-doped organics. As a new idea, the shift of charge from the intramolecular donor fragment to the intermolecular acceptors can be proposed as the development of Janus particles. The energy losses via diffraction are considered as an additional mechanism to explain the nonlinear attenuation of the laser beam.
Keywords: COANP; NPP; PNP; carbon nanoparticles and tubes; intermolecular charge transfer complex formation; laser-matter interaction; organic structures; polyimides; refractivity change.
Conflict of interest statement
Author Natalia Kamanina was employed by the company Joint Stock Company Scientific and Production Corporation S.I. Vavilov State Optical Institute, Babushkina Str. dom 36, Korpus 1, St. Petersburg 192171, Russia/Vavilov State Optical Institute, Kadetskaya Liniya V.O., dom 5, Korpus 2, St. Petersburg 199053, Russia. The author declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
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References
-
- Kamanina N.V. The Effect of the Charge Transfer Pathway during Intermolecular Complex Formation on Nonlinear Optical and Photoconducting Properties of Nanocomposites. Tech. Phys. Lett. 2012;38:114–117. doi: 10.1134/S1063785012020083. - DOI
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