P. V. Kuzhakov scite author profile

P. V. Kuzhakov

4Publications

66Citation Statements Received

63Citation Statements Given

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Affiliations

Petersburg Nuclear Physics Institute, State Optical Institute named after SI Vavilov, Saint Petersburg State Electrotechnical University

Publications

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Polyimide-fullerene nanostructured materials for nonlinear optics and solar energy applications

Каманина

Serov

Shurpo

et al. 2012

J Mater Sci: Mater Electron

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Based on the model polyimide systems the principal nonlinear optical features, such as laser induced refractive indices changes, nonlinear refraction and third order susceptibility have been established during their doping with fullerenes, shungites, carbon nanotubes, carbon nanofibers, quantum dots, etc. The evidence of the correlation between laser induced refractive indices and charge carrier mobility has been obtained. The features of new nanocomposites for their possible optoelectronics, laser techniques and solar energy applications have been considered.

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Advantages of the Surface Structuration of KBr Materials for Spectrometry and Sensors

Каманина

Likhomanova

Kuzhakov

2018

Sensors

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A potassium bromide (KBr) material, which has been widely used as the key element in Fourier spectrometers and as the output window of the IR-lasers, was studied via applying carbon nanotubes in order to modify the potassium bromide surface. The laser-oriented deposition method was used to place the carbon nanotubes at the matrix material surface in the vertical position at different electric fields varying from 100 to 600 V × cm−1. The main idea of the improvement of the spectral properties of the potassium bromide structure is connected with the fact that the refractive index of the carbon nanotubes is substantially less than the refractive index of the studied material, and the small diameter of the carbon nanotubes allows one to embed these nano-objects in the voids of the lattice of the model matrix systems. Moreover, the mechanical characteristics and wetting features of potassium bromide structures have been investigated under the condition mentioned above. Analytical and quantum-chemical simulations have supported the experimental results.

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Advanced and Functional Structured Ceramics: MgF2 and ZnS

et al. 2022

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Due to difficulties in obtaining monomaterials, intensive research into the properties of ceramic compositions has been undertaken, along with developments to the properties of the compositions. These are not inferior to monomeric structures for a number of basic parameters. Among the different types of ceramics, magnesium fluoride and zinc sulfide occupy a special place due to their unique properties and specific applications. In this paper, we studied functional optoelectronics and modulating technique elements based on the advanced ceramics MgF2 and ZnS. The results of the transmittance spectral parameters and the contact angle estimation as well as an AFM analysis of the studied ceramics, both pure and structured with carbon nanotubes, are presented. We observed that the main characteristics of the studied materials with a surface modified by carbon nanotubes could be significantly changed when an innovative laser-oriented deposition method was applied. This method permitted the CNTs to be deposited in a vertical position on the material surface. The main features of the carbon nanotubes—such as the smaller value of the refractive index, the greater strength between the carbon atoms, and the effective surface—were taken into consideration. The analytical, quantum chemical, and experimental results of the studies of the changes in the basic physical parameters of the selected model of the inorganic matrices of the ceramics are given.

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A nanostructuring approach for modification of the features of optical materials: lithium fluoride

Каманина

Kuzhakov

Kukharchik

et al. 2019

IOP Conf. Ser.: Mater. Sci. Eng.

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It is well known that different technical methods and physical-chemical approaches can be used to improve the basic properties of optical materials operated in the UV-VIS-IR spectral range. Laser-based equipment and a nanotechnology approach can be jointly applied with good advantage. In this paper, the advantage of the laser-oriented deposition technique is discussed. Promising nanoobjects based on carbon nanotubes and LiF structures were considered, and their spectral, mechanical and wetting properties were evaluated. It was found the modification of the LiF with the carbon nanotubes improves the optical properties of the former. The quantum chemical simulations confirmed the experimental results obtained. Besides, the changes in the properties of the other classical materials (such as KCl, KBr, MgF2, etc) were comparatively shown.

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P. V. Kuzhakov

Polyimide-fullerene nanostructured materials for nonlinear optics and solar energy applications

Advantages of the Surface Structuration of KBr Materials for Spectrometry and Sensors

Advanced and Functional Structured Ceramics: MgF2 and ZnS

A nanostructuring approach for modification of the features of optical materials: lithium fluoride

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