D. A. Kirilenko scite author profile

Bulk oxyfluoride glasses doped with Ag nanoclusters have been prepared using the melt quenching technique. When pumped in the absorption band of Ag nanoclusters between 300 to 500 nm, these glasses emit a very broad luminescence band covering all the visible range with a weak tail extending into the near infrared. The maximum of the luminescence band and its color shifts to the blue with a shortening of the excitation wavelength and an increasing ratio of oxide to fluoride components, resulting in white color luminescence at a particular ratio of oxide to fluoride; with a quantum yield above 20%.

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From graphene oxide towards aminated graphene: facile synthesis, its structure and electronic properties

Rabchinskii

Ryzhkov

Kirilenko

et al. 2020

Sci Rep

128

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in this paper we present a facile method for the synthesis of aminated graphene derivative through simultaneous reduction and amination of graphene oxide via two-step liquid phase treatment with hydrobromic acid and ammonia solution in mild conditions. the amination degree of the obtained aminated reduced graphene oxide is of about 4 at.%, whereas C/O ratio is up to 8.8 as determined by means of X-ray photoelectron spectroscopy. the chemical reactivity of the introduced amine groups is further verified by successful test covalent bonding of the obtained aminated graphene with 3-Chlorobenzoyl chloride. The morphological features and electronic properties, namely conductivity, valence band structure and work function are studied as well, illustrating the influence of amine groups on graphene structure and physical properties. particularly, the increase of the electrical conductivity, reduction of the work function value and tendency to form wrinkled and corrugated graphene layers are observed in the aminated graphene derivative compared to the pristine reduced graphene oxide. As obtained aminated graphene could be used for photovoltaic, biosensing and catalysis application as well as a starting material for further chemical modifications.

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Insight into the performance of multi-color InGaN/GaN nanorod light emitting diodes

Robin

Bae

Shubina

et al. 2018

Sci Rep

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We report on the thorough investigation of light emitting diodes (LEDs) made of core-shell nanorods (NRs) with InGaN/GaN quantum wells (QWs) in the outer shell, which are grown on patterned substrates by metal-organic vapor phase epitaxy. The multi-bands emission of the LEDs covers nearly the whole visible region, including UV, blue, green, and orange ranges. The intensity of each emission is strongly dependent on the current density, however the LEDs demonstrate a rather low color saturation. Based on transmission electron microscopy data and comparing them with electroluminescence and photoluminescence spectra measured at different excitation powers and temperatures, we could identify the spatial origination of each of the emission bands. We show that their wavelengths and intensities are governed by different thicknesses of the QWs grown on different crystal facets of the NRs as well as corresponding polarization-induced electric fields. Also the InGaN incorporation strongly varies along the NRs, increasing at their tips and corners, which provides the red shift of emission. With increasing the current, the different QW regions are activated successively from the NR tips to the side-walls, resulting in different LED colors. Our findings can be used as a guideline to design effectively emitting multi-color NR-LEDs.

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Luminescence of oxyfluoride glasses co-doped with Ag nanoclusters and Yb³⁺ions

et al. 2012

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Nanoscale Perforation of Graphene Oxide during Photoreduction Process in the Argon Atmosphere

et al. 2016

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We present a study of the process of reduction of thin graphene oxide (GO) films consisting of flakes with lateral size of up to 100 μm through soft ultraviolet irradiation in the argon atmosphere. It was found out that the reduction process leads to a significant decrease in the overall content of the basal-plane functional groups, namely, epoxides and hydroxyls, but with simultaneous increase in the total number of the edge-located carboxyl groups. Obtained transmission electron microscopy images showed that this effect is related to formation of nanoscale holes in the course of reduction. Based on the data obtained, we have proposed a mechanism of the observed GO structural modification in terms of photoinduced chemical reactions between the carbon network and functional groups. These reactions result in progressive growth of the initially existing and newly formed vacancies with formation of the nanoholes with size of up to 100 nm. Thus, reduced graphene oxide films with the restored conjugated network and many edges terminated with carboxyl groups can be probably obtained via the photoreduction process in the argon atmosphere and further used in several applications, such as production of gas sensors and organic light-emitting devices.

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Rehybridization of carbon on facets of detonation diamond nanocrystals and forming hydrosols of individual particles

Dideĭkin

Aleksenskii

Байдакова

et al. 2017

Carbon

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Measuring the corrugation amplitude of suspended and supported graphene

2011

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Nanoscale corrugation is a fundamental property of graphene arising from its low-dimensional nature. It places a fundamental limit to the conductivity of graphene and influences its properties. However the degree of the influence of the corrugation has not been well established because of the little knowledge about its spectrum in suspended graphene. We present a transmission electron microscopy technique that enables us to measure the average corrugation height and length. We applied the technique also to measure the temperature dependence of the corrugation. The difference in corrugation between suspended and supported graphene has been illustrated.

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Multiwall MoS2 tubes as optical resonators

Kazanov

Poshakinskiy

Davydov

et al. 2018

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We study the optical properties of MoS2 nanotubes (NTs) with walls comprising dozens of monolayers. We reveal strong peaks in micro-photoluminescence (μ-PL) spectra when detecting the light polarized along the NT axis. We develop a model describing the optical properties of the nanotubes acting as optical resonators which support the quantization of whispering gallery modes inside the NT wall. The experimental observation of the resonances in μ-PL allows one to use them as a contactless method of the estimation of the wall width. Our findings open a way to use such NTs as polarization-sensitive components of nanophotonic devices.

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D. A. Kirilenko

Preparation and luminescence of bulk oxyfluoride glasses doped with Ag nanoclusters

From graphene oxide towards aminated graphene: facile synthesis, its structure and electronic properties

Insight into the performance of multi-color InGaN/GaN nanorod light emitting diodes

Luminescence of oxyfluoride glasses co-doped with Ag nanoclusters and Yb³⁺ions

Nanoscale Perforation of Graphene Oxide during Photoreduction Process in the Argon Atmosphere

Rehybridization of carbon on facets of detonation diamond nanocrystals and forming hydrosols of individual particles

Measuring the corrugation amplitude of suspended and supported graphene

Multiwall MoS2 tubes as optical resonators

Contact Info

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Resources

About

D. A. Kirilenko

Preparation and luminescence of bulk oxyfluoride glasses doped with Ag nanoclusters

From graphene oxide towards aminated graphene: facile synthesis, its structure and electronic properties

Insight into the performance of multi-color InGaN/GaN nanorod light emitting diodes

Luminescence of oxyfluoride glasses co-doped with Ag nanoclusters and Yb3+ions

Nanoscale Perforation of Graphene Oxide during Photoreduction Process in the Argon Atmosphere

Rehybridization of carbon on facets of detonation diamond nanocrystals and forming hydrosols of individual particles

Measuring the corrugation amplitude of suspended and supported graphene

Multiwall MoS2 tubes as optical resonators

Contact Info

Product

Resources

About

Luminescence of oxyfluoride glasses co-doped with Ag nanoclusters and Yb³⁺ions