Oleksii Klymov scite author profile

Oleksii Klymov

5Publications

35Citation Statements Received

49Citation Statements Given

How they've been cited

How they cite others

152

Affiliations

University of Valencia, Sumy State University

Publications

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Spontaneous intercalation of Ga and In bilayers during plasma-assisted molecular beam epitaxy growth of GaN on graphene on SiC

Feldberg¹,

Klymov²,

Garro³

et al. 2019

Nanotechnology

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The formation of a self-limited metallic bilayer is reported during the growth of GaN by plasma-assisted molecular beam epitaxy on graphene on (0001) SiC. Depending on growth conditions, this layer may consist of either Ga or In, which gets intercalated between graphene and the SiC surface. Diffusion of metal atoms is eased by steps at SiC surface and N plasma induced defects in the graphene layer. Energetically favorable wetting of the (0001) SiC surface by Ga or In is tentatively assigned to the breaking of covalent bonds between (0001) SiC surface and carbon buffer layer. As a consequence, graphene doping and local strain/doping fluctuations decrease. Furthermore, the presence of a metallic layer below GaN opens the way to the development of devices with a spontaneously formed metallic electrode on their back side.

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MOCVD growth of CdO very thin films: Problems and ways of solution

Huerta-Barberà

Guia

Klymov

et al. 2016

Applied Surface Science

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Structural features of Cu2MgxZn1−xSnS4 solid solution films for third-generation solar cells

Yermakov

Pshenychnyi

Opanasyuk

et al. 2023

Journal of Alloys and Compounds

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Structural characteristics of Zn_1-xMn_xTe polycrystalline films

Kurbatov

Klymov

Opanasyuk

et al. 2012

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Self-assembled metal-oxide nanoparticles on GaAs: infrared absorption enabled by localized surface plasmons

Castellano

Tamayo-Arriola

Bajo

et al. 2021

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Metal-oxides hold promise as superior plasmonic materials in the mid-infrared compared to metals, although their integration over established material technologies still remains challenging. We demonstrate localized surface plasmons in self-assembled, hemispherical CdZnO metal-oxide nanoparticles on GaAs, as a route to enhance the absorption in mid-infrared photodetectors. In this system, two localized surface plasmon modes are identified at 5.3 and 2.7 μm, which yield an enhancement of the light intensity in the underlying GaAs. In the case of the long-wavelength mode the enhancement is as large as 100 near the interface, and persists at depths down to 50 nm. We show numerically that both modes can be coupled to infrared intersubband transitions in GaAs-based multiple quantum wells, yielding an absorbed power gain as high as 5.5, and allowing light absorption at normal incidence. Experimentally, we demonstrate this coupling in a nanoparticle/multiple quantum well structure, where under p-polarization the intersubband absorption is enhanced by a factor of 2.5 and is still observed under s-polarization, forbidden by the usual absorption selection rules. Thus, the integration of CdZnO on GaAs can help improve the figures of merit of quantum well infrared photodetectors, concept that can be extended to other midinfrared detector technologies.

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Oleksii Klymov

Spontaneous intercalation of Ga and In bilayers during plasma-assisted molecular beam epitaxy growth of GaN on graphene on SiC

MOCVD growth of CdO very thin films: Problems and ways of solution

Structural features of Cu2MgxZn1−xSnS4 solid solution films for third-generation solar cells

Structural characteristics of Zn_1-xMn_xTe polycrystalline films

Self-assembled metal-oxide nanoparticles on GaAs: infrared absorption enabled by localized surface plasmons

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Oleksii Klymov

Spontaneous intercalation of Ga and In bilayers during plasma-assisted molecular beam epitaxy growth of GaN on graphene on SiC

MOCVD growth of CdO very thin films: Problems and ways of solution

Structural features of Cu2MgxZn1−xSnS4 solid solution films for third-generation solar cells

Structural characteristics of Zn1-xMnxTe polycrystalline films

Self-assembled metal-oxide nanoparticles on GaAs: infrared absorption enabled by localized surface plasmons

Contact Info

Product

Resources

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Structural characteristics of Zn_1-xMn_xTe polycrystalline films