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37 results on '"Osipov, Anton"'

1. Light-induced injection of hot carriers from gold nanoparticles to carbon wire bundles

Author

Kutrovskaya, Stella, Chestnov, Igor, Osipov, Anton, Samyshkin, Vlad, Lelekova, Anastasya, Povolotskiy, Alexey, Zhou, Xiaoqing, Kavokin, Alexey, and Kucherik, Alexey

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We observed a light-induced enhancement of the tunneling current propagating through an array of parallel carbon chains anchored between gold nanoparticles (NPs). In the presence of laser radiation characterized by a wavelength close to the plasmon resonance of the NPs, the current-voltage characteristics of carbon bundle tunnelling junctions demonstrate a pronounced asymmetry between positive and negative bias values. Such an asymmetry is typical for a Schottky junction, in general. The resistance of the tunnel junction decreases with the increase of the optical pumping intensity. We associate the observed effect with an injection of `hot' carriers created in Au NPs due to the decay of the surface plasmons accompanied by the charge transfer to the carbon bundles. The observed phenomenon can be used for non-resonant excitation of excitonic states in low-dimensional carbon-based structures for single-photon emission, as well as for photovoltaic applications., Comment: 8 pages, 2 figures

Published
2022

3. Formation of Fractal Dendrites by Laser induced melting of Aluminum Alloys

Author

Kucherik, Alexey, Samyshkin, Vlad, Prusov, Evgeny, Osipov, Anton, Panfilov, Alexey, Buharov, Dmitry, Arakelian, Sergey, Scrybin, Igor, Kavokin, Alexey Vitalievich, and Kutrovskaya, Stella

Subjects
Condensed Matter - Materials Science, Physics - Atomic and Molecular Clusters, Physics - Atomic Physics
Abstract

We report on the fabrication of fractal dendrites by laser induced melting of aluminum alloys. We target boron carbide (B4C) that is one of the most effective radiation-absorbing materials which is characterised by a low coefficient of thermal expansion. Due to the high fragility of B4C crystals we were able to introduce its nanoparticles into a stabilization aluminum matrix of AA385.0. The high intensity laser field action led to the formation of composite dendrite structures under the effect of local surface melting. The modelling of the dendrite cluster growth confirms its fractal nature and sheds light on the pattern behavior of the resulting quasicrystal structure., Comment: 8 pages, 3 figures

Published
2021

4. Exciton radiative lifetime in a monoatomic carbon chain

Author

Kutrovskaya, Stella, Demirchyan, Sevak, Osipov, Anton, Baryshev, Stepan, Zasedatelev, Anton, Lagoudakis, Pavlos, and Kavokin, Alexey

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Linear carbon-based materials such as polyyne and cumulene oligomers provide a versatile platform for nano-physics and engineering. Direct gap quasi-1D polyyne structures are promising for the observation of strong and unusual excitonic eects arising due to the two-dimensional quantum connement. Recently, we reported on the observation of sharp exciton peaks in low temperature photoluminescence spectra of polyyne chains. Here, we analyse the time-resolved optical response of this system. We extend the non-local dielectric response theory to predict the exciton radiative lifetime dependence on the band-gap value and on the length of the chain. A good agreement between the experiment and the theory is achieved., Comment: 4 pages, 4 figures

Published
2020

5. Exciton energy spectra in polyyne chains

Author

Kutrovskaya, Stella, Demirchyan, Sevak, Osipov, Anton, Baryshev, Stepen, Zasedatelev, Anton, Lagoudakis, Pavlos, and Kavokin, Alexey

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Recently, we have experimentally observed signatures of sharp exciton peaks in the photoluminescence spectra of bundles of monoatomic carbon chains stabilized by gold nanoparticles and deposited on a glass substrate. Here, we estimate the characteristic energies of excitonic transitions in this complex quasi-one-dimensional nano-system with use of the variational method. We show that the characteristic energy scale for the experimentally observed excitonic fine structure is governed by the interplay between the hopping energy in a Van der Waals quasicrystal formed by parallel carbon chains, the neutral-charged exciton splitting and the positive-negative trion splitting. These three characteristic energies are an order of magnitude lower than the direct exciton binding energy., Comment: 6 pages, 3 figures

Published
2020
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6. Electric field assisted alignment of monoatomic carbon chains

Author

Kutrovskaya, Stella, Chestnov, Igor, Osipov, Anton, Samyshkin, Vlad, Sapegina, Irina, Kavokin, Alexey, and Kucherik, Alexey

Subjects
Physics - Atomic and Molecular Clusters
Abstract

We stabilize monoatomic carbon chains in water by attaching them to gold nanoparticles (NPs) by means of the laser ablation process. Resulting nanoobjects represent pairs of NPs connected by multiple straight carbon chains of several nanometer lengths. If NPs at the opposite ends of a chain differ in size, the structure acquires a dipole moment due to the difference in work functions of the two NPs. We take advantage of the dipole polarisation of carbon chains for ordering them by the external electric field. We deposit them on a glass substrate by the sputtering method in the presence of static electric fields of magnitudes up to 10^5 V/m. The formation of one-dimensional carbyne quasi-crystals deposited on a substrate is evidenced by high-resolution TEM and X-ray diffraction measurements. The original kinetic model describing the dynamics of ballistically flowing nano-dipoles reproduces the experimental diagram of orientation of the deposited chains., Comment: 15 pages, 7 figures

Published
2019

7. Photosensitive free-standing ultra-thin carbyne-gold films

Author

Samyshkin, Vlad, Lelekova, Anastasia, Osipov, Anton, Bukharov, Dmitrii, Skryabin, Igor, Arakelian, Sergey, and Kutrovskaya, Stella

Subjects
Condensed Matter - Materials Science, Physics - Atomic and Molecular Clusters
Abstract

In the article we introduce the experiment of the photostimulation effect in the tunneling conductivity of free-standing thin C-Au films. We observe a sharp increase of the conductivity of hybrid film due to the electromagnetic exciting at the frequencies which are close to the plasmon resonance of gold nanoparticles. The use of carbyne threads as a stabilizing matrix makes it possible to obtain free-standing thin films that demonstrate a good structural stability. The tunnel current-voltage measurements demonstrate a strong dependence of the current value on the intensity of green laser radiation used to photostimulate thin C-Au in area of the measuring experiment., Comment: 11 pages, 3 figures

Published
2019

8. Excitonic fine structure in emission of linear carbon chains

Author

Kutrovskaya, Stella, Osipov, Anton, Baryshev, Stepan, Zasedatelev, Anton, Samyshkin, Vlad, Demirchyan, Sevak, Pulci, Olivia, Grassano, Davide, Gontrani, Lorenzo, Hartmann, Richard R., Portnoi, Mikhail E., Kucherik, Alexey, Lagoudakis, Pavlos, and Kavokin, Alexey

Subjects
Physics - Atomic and Molecular Clusters, Condensed Matter - Materials Science
Abstract

We studied monoatomic linear carbon chains stabilised by gold nanoparticles attached to their ends and deposited on a solid substrate. We observe spectral features of straight chains containing from 8 to 24 atoms. Low temperature PL spectra reveal characteristic triplet fine-structures that repeat themselves for carbon chains of different lengths. The triplet is invariably composed of a sharp intense peak accompanied by two broader satellites situated 15 and 40 meV below the main peak. We interpret these resonances as an edge-state neutral exciton, positively and negatively charged trions, respectively. The time-resolved PL shows that the radiative lifetime of the observed quasiparticles is about 1 ns, and it increases with the increase of the length of the chain. At high temperatures a non-radiative exciton decay channel appears due to the thermal hopping of carriers between parallel carbon chains. Excitons in carbon chains possess large oscillator strengths and extremely low inhomogeneous broadenings., Comment: 23 pages, 5 figures

Published
2019
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9. The laser synthesis of linear carbon chains

Author

Kutrovskaya, Stella, Osipov, Anton, Povolotskiy, Alexey, Samyshkin, Vlad, Karabchevskii, Alina, Kavokin, Alexey, and Kucherik, Alexey

Subjects
Physics - Atomic and Molecular Clusters
Abstract

We synthesize macroscopically long linear carbon chains (carbynes) in a colloidal solution, then deposit them on a surface. The method is based on the formation of carbon threads by laser ablation in a colloid accompanied by the stabilization of resulting linear carbon chains by golden nanoparticles. We observe the signatures of the polyyne allotrope of carbyne in the photoluminescence and Raman spectra of the solutions. We deposit the synthesized carbyne threads on fused quartz glass substrates. The transmission electron microscopy images of the deposited threads with golden nanoparticles attached to their ends demonstrate the straight linear parts of the monoatomic carbon chains varying in length between 8 and 24 carbon atoms. This method paves the way to fabrication of an ultimate one-dimensional crystal: a monoatomic carbon wire., Comment: 13 pages, 5 figures, 1 table, including supplementary materials part at the end of the article

Published
2018

10. Study of the formation of carbon dioxide hydrate in a colloidal solution of water + SDS + SiO2 at a constant SiO2 concentration of 500 ppm

Author

Shemeleva Elizaveta and Osipov Anton

Subjects
Environmental sciences, GE1-350
Abstract

The paper presents a study of the formation of gas hydrate in a colloidal solution of water + SDS + SiO2. The effect of the kinetic promoter of sodium dodecyl sulfate (SDS) on the process of hydrate formation was studied at various concentrations: 0, 100, 300, 500 ppm at a constant SiO2 concentration of 500 ppm. A description of the experimental research methodology is given, the dependences of pressure and temperature changes on time for each SDS concentration are shown, and the coefficients of conversion of water and gas into the gas hydrate state are determined. The studies were carried out using carbon dioxide as a hydrate-forming gas.

Published
2024
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11. Experimental investigation of carbon dioxide hydrate formation in a colloidal solution of H2O+ SDS + SiO2 at a constant SiO2 concentration of 300 ppm

Author

Shemeleva Elizaveta, Osipov Anton, and Klimov Bogdan

Subjects
Environmental sciences, GE1-350
Abstract

The paper presents a experimental investigation of carbon dioxide hydrate formation in a colloidal solution of H2O+ SDS + SiO2 The influence of the kinetic promoter of sodium dodecyl sulfate (SDS) on the formation of carbon dioxide gas hydrate at various concentrations: 0, 100, 300, 500 ppm was assessed. The SiO2 concentration in the solution was constant and equal to 300 ppm. The change in solution temperature and pressure during the production of hydrate is shown for each SDS concentration. The values of convection of solution and gas into the gas hydrate state were determined.

Published
2024
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13. Investigation of the stability of nanofluids based on water and carbon nanoparticles synthesized by the electric arc method

Author

Morozova Marina A., Osipov Anton A., Maksimovskiy Evgeniy A., and Zaikovskii Alexey V.

Subjects
Environmental sciences, GE1-350
Abstract

In this work, arc discharge synthesis was carried out by sputtering electrodes of various compositions in a helium medium, as a result of which two types of materials containing carbon globules and graphene flakes were obtained. The synthesized materials were characterized with transmission electron microscopy, scanning electron microscopy, and Raman spectroscopy. The effect of the type and concentration of carbon nanoparticles and the type of surfactants on the stability of water-based nanofluids was studied with optical spectroscopy. For carbon globules and water, the mass concentrations of nanoparticles and sodium dodecyl sulfate were determined to obtain a nanofluid based on them stable for 1 month, which are 0.02% and 1%, respectively. It was shown that the use of neonol AF 9-12 at a concentration of 2% didn’t lead to the stabilization of carbon globules with a mass concentration of 0.02% in water. For graphene flakes, the mass concentrations of nanoparticles and stabilizers to obtain a water-based nanofluid stable for 1 month were: 0.02% graphene flakes and 1% SDS, as well as 0.02% graphene flakes and 2% neonol AF 9-12, respectively.

Published
2023
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14. Titanium-Based Metasurfaces for Optoelectronics

Author

Kavokina, Stella, primary, Samyshkin, Vlad, additional, Cao, Junhui, additional, Abramov, Andrey, additional, Osipov, Anton, additional, Essaka, Samuel Pier, additional, Khalimov, Nazrullo, additional, Bodunov, Dmitry, additional, and Kavokin, Alexey, additional

Published
2023
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16. Laser Fabrication of Gold–sp-Carbon Films

Author

Kavokina, Stella, primary, Osipov, Anton, additional, Samyshkin, Vlad, additional, Abramov, Andrey, additional, Rozhkova, Natalia, additional, Kononenko, Vitali, additional, Konov, Vitali, additional, and Kucherik, Alexey, additional

Published
2023
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20. Titanium-Based Metasurfaces for Optoelectronics.

Author

Kavokina, Stella, Samyshkin, Vlad, Cao, Junhui, Abramov, Andrey, Osipov, Anton, Essaka, Samuel Pier, Khalimov, Nazrullo, Bodunov, Dmitry, and Kavokin, Alexey

Subjects
NANOWIRES, LIGHT absorption, OPTOELECTRONICS, LASER pumping, TITANIUM dioxide, METALLIC surfaces, FULLERENES, OPTICAL conductivity
Abstract

We report on the fabrication method that enables the development of transparent conductive metasurfaces capable of the resonant absorption of light in specific frequency bands. The approach is based on embedding linear sp-carbon chains and metallic nanoparticles in a porous matrix of titanium dioxide (TiO2). We develop a blading technique for the formation of a periodical grating of TiO2 microtubes at the macroscale. The method allowed us to maintain the periodicity of an array of microtubes with an accuracy of ±5%. Tuning the diameter of the tubes and the concentration of metallic nanoparticles, we achieved the regime of strong resonant absorption of the fabricated complex metasurface in the visible range. Computer simulations helped revealthe regime of TE/TM-polarized laser pumping that allowed for the most efficient transformation of light energy into electric current flow. In the studied structures, the sp-carbon clusters embedded inside transparent titanium dioxide tubes play the role of atomic wires. The interplay between efficient conductivity through carbon wires and the plasmon-enhanced absorption of light allows the design of photodiode structures based on periodical metasurfaces and characterized by highly selective optical sensitivity. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Exciton radiative lifetime in a monoatomic carbon chain

Author

Kutrovskaya, Stella, Demirchyan, Sevak, Osipov, Anton, Baryshev, Stepan, Zasedatelev, Anton, Lagoudakis, Pavlos, and Kavokin, Alexey

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), FOS: Physical sciences
Abstract

Linear carbon-based materials such as polyyne and cumulene oligomers provide a versatile platform for nano-physics and engineering. Direct gap quasi-1D polyyne structures are promising for the observation of strong and unusual excitonic eects arising due to the two-dimensional quantum connement. Recently, we reported on the observation of sharp exciton peaks in low temperature photoluminescence spectra of polyyne chains. Here, we analyse the time-resolved optical response of this system. We extend the non-local dielectric response theory to predict the exciton radiative lifetime dependence on the band-gap value and on the length of the chain. A good agreement between the experiment and the theory is achieved., Comment: 4 pages, 4 figures

Published
2021
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27. Field-Induced Assembly of sp-sp2 Carbon Sponges

Author

Kutrovskaya, Stella, primary, Samyshkin, Vlad, additional, Lelekova, Anastasia, additional, Povolotskiy, Alexey, additional, Osipov, Anton, additional, Arakelian, Sergey, additional, Kavokin, Alexey Vitalievich, additional, and Kucherik, Alexey, additional

Published
2021
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29. Exciton energy spectra in polyyne chains

Author

Kutrovskaya, Stella, primary, Demirchyan, Sevak, additional, Osipov, Anton, additional, Baryshev, Stepan, additional, Zasedatelev, Anton, additional, Lagoudakis, Pavlos, additional, and Kavokin, Alexey, additional

Published
2021
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30. Excitonic Fine Structure in Emission of Linear Carbon Chains

Author

Kutrovskaya, Stella, primary, Osipov, Anton, additional, Baryshev, Stepan, additional, Zasedatelev, Anton, additional, Samyshkin, Vladislav, additional, Demirchyan, Sevak, additional, Pulci, Olivia, additional, Grassano, Davide, additional, Gontrani, Lorenzo, additional, Hartmann, Richard Rudolph, additional, Portnoi, Mikhail E., additional, Kucherik, Alexey, additional, Lagoudakis, Pavlos G., additional, and Kavokin, Alexey, additional

Published
2020
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32. Dynamic characteristics of a laser system for controlling an object's impact

Author

Arakelyan, Sergey M., primary, Asratyan, Arpik A., additional, Evstigneev, Vladimir L., additional, Kazaryan, Mishik A., additional, Gerke, Miron N., additional, Galkin, Arkady F., additional, Zhirnova, Svetlana V., additional, Osipov, Anton V., additional, Evstyunin, Grigory A., additional, Shamanskaya, Elena L., additional, Zakharyan, Robert A., additional, Averyushkin, Anatoly S., additional, Andrienko, Oleg S., additional, and Ivashkin, Peter I., additional

Published
2019
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36. Field-Induced Assembly of sp-sp 2 Carbon Sponges.

Author

Kutrovskaya, Stella, Samyshkin, Vlad, Lelekova, Anastasia, Povolotskiy, Alexey, Osipov, Anton, Arakelian, Sergey, Kavokin, Alexey Vitalievich, Kucherik, Alexey, and Cannas, Marco

Subjects
ELECTROMAGNETIC fields, SCANNING electron microscopy, CARBON
Abstract

The formation of macroscale carbon structures characterised by an sp-sp 2 -hybridization is realised by self-assembly in colloidal solutions under an effect of laser irradiation and electromagnetic fields. The sponge-like morphology, sculptured with gold nanoparticles (NPs) was revealed by Scanning Electron Microscopy (SEM) imaging. Full structural and defect characterization of the self-assembled sponges was provided using the micro-Raman spectroscopic technique. The synthesized clusters manifest themselves in the presence of a strong spectral band in the visible range of the photoluminescence spectra that is quite unusual for ordered sp 2 -carbon systems. [ABSTRACT FROM AUTHOR]

Published
2021
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37. Our experience in endoscopic treatment of vesico-ureteral reflux in children.

Author

Osipov I, Lebedev D, Sosnin E, Osipov A, Levandovsky A, Lifanova M, and Startsev VY

Subjects
Child, Female, Humans, Male, Cystoscopy, Ureteroscopy, Vesico-Ureteral Reflux therapy
Abstract

Aim of the Study: To define the guidelines of endoscopic treatment of vesico-ureteral reflux (VUR) in children in relation to grade of VUR, of the location of the ureteral orifice, of the stage of reflux nephropathy and of the association with other urinary tract malformations., Materials and Methods: 498 children with vesico-ureteral reflux (VUR) were observed in 702 ureters. All the patients were submitted to a complete urological evaluation and to endoscopic treatment (ET) of the VUR with the implant of a stable polyacrylamid gel (DAM+)., Results: The reflux was degree I in 53 ureters, II in 174, III in 301, IV in 165 and V in 9 ureters. VUR was primary in 149 children, secondary to a neurogenic dysfunction of the bladder in 271 patients, complex in the remaining cases. An overall 90.5% success rate of endoscopic treatment with "DAM+" implantation was observed. Success of VUR endoscopic treatment was obtained in 80% of cases with- orifice lateralisation, in 60% of cases with high and low intravesical orifice ectopy, and in 10% of cases with extravesical orifice. In 151 ureters (21.5%) endoscopical treatment of VUR had to be repeated, while a third procedure was necessary in 42 ureters (5.9% of cases). In total 895 endoscopic procedures were performed. Open surgical ureteral reimplantation was performed in the cases with persisting VUR after the third attempt of endoscopic procedure., Conclusion: These results of the endoscopic treatment of VUR in children confirm the high efficacy and safety of this method. In any case, before choosing the method of VUR correction, it is necessary to inform the parents of the child about the potential rate of success of the endoscopic treatment in function of the peculiarity of the individual patient.

Published
2005

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