Search Results - "Shulga, Yu.M"

Raman study of the high-pressure hydrogenated single-wall carbon nanotubes: In search of chemically bonded and adsorbed molecular hydrogen by Meletov, K.P., Maksimov, A.A., Tartakovskii, I.I., Bashkin, I.O., Shestakov, V.V., Krestinin, A.V., Shulga, Yu.M., Andrikopoulos, K.S., Arvanitidis, J., Christofilos, D., Kourouklis, G.A.

“…Hydrogenated single-wall carbon nanotubes (SWNT) were investigated by micro-Raman spectroscopy. The main feature of the Raman spectrum is a giant structureless…”
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The characteristics of BiOCl/Plaster of Paris composites and their photocatalytic performance under visible light illumination for self-cleaning by Singh, V.P., Mishra, Deepika, Kabachkov, E.N., Shul'ga, Yu.M., Vaish, Rahul

“…[Display omitted] •BiOCl flake was prepared using precipitation method.•Homogenous POP-BiOCl (%) composites were formed.•Rz ink test was performed to test…”
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Mechanically Activated Solid-Phase Reaction of Copper Chloride with Sodium [beta]-Diketonates: Formation of Metallic Copper Nanoparticles by Makhaev, V.D, Petrova, L.A, Shulga, Yu.M

“…Solid-phase reaction of copper(I) chloride with sodium [beta]-diketonates under mechanical activation in a vibration ball mill involves disproportionation of…”
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Conductivity of graphene oxide films: Dependence from solvents and photoreduction by Smirnov, V.A., Denisov, N.N., Ukshe, A.E., Shulga, Yu.M.

“…[Display omitted] •Conductivity of graphene oxide (GO) films of 200–500nm thickness.•Isotopic effect for the conductivity being σH/σD=1.4±0.1.•Proton character…”
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Magnetic ordering in hydrofullerite C 60H 24 by Antonov, V.E, Bashkin, I.O, Khasanov, S.S, Moravsky, A.P, Morozov, Yu.G, Shulga, Yu.M, Ossipyan, Yu.A, Ponyatovsky, E.G

“…Hydrofullerites C 60H x synthesised at hydrogen pressures of 0.6 and 3 GPa were found to possess ferromagnetic properties at room temperature. The magnitude of…”
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Magnetic ordering in hydrofullerite C60H24 by Antonov, V.E, Bashkin, I.O, Khasanov, S.S, Moravsky, A.P, Morozov, Yu.G, Shulga, Yu.M, Ossipyan, Yu.A, Ponyatovsky, E.G

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Composition of Hydrofullerene Mixtures Produced by C60 Reaction with Hydrogen Gas Revealed by High-Resolution Mass Spectrometry by Talyzin, Alexander V., Tsybin, Yury O., Schaub, Tanner M., Mauron, Philippe, Shulga, Yury M., Züttel, Andreas, Sundqvist, Bertil, Marshall, Alan G.

“…Complex solid hydrofulleride mixtures were synthesized by prolonged hydrogenation of C60 at 120 bar hydrogen pressure, 673 K temperature, and different…”
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Reaction of Hydrogen Gas with C60 at Elevated Pressure and Temperature:  Hydrogenation and Cage Fragmentation by Talyzin, Alexandr V, Tsybin, Yury O, Purcell, Jeremiah M, Schaub, Tanner M, Shulga, Yury M, Noréus, Dag, Sato, Toyoto, Dzwilewski, Andrzej, Sundqvist, Bertil, Marshall, Alan G

“…Products of the reaction of C60 with H2 gas have been monitored by high-resolution atmospheric pressure photoionization Fourier transform ion cyclotron…”
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Influence of CH3 group of μ-N–C–S ligand on the properties of [Fe2(C4H5N2S)2(NO)4] complex by Sanina, N.A., Rudneva, T.N., Aldoshin, S.M., Shilov, G.V., Kortchagin, D.V., Shul’ga, Yu.M., Martynenko, V.M., Ovanesyan, N.S.

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Influence of CH 3 group of μ-N–C–S ligand on the properties of [Fe 2(C 4H 5N 2S) 2(NO) 4] complex by Sanina, N.A., Rudneva, T.N., Aldoshin, S.M., Shilov, G.V., Kortchagin, D.V., Shul’ga, Yu.M., Martynenko, V.M., Ovanesyan, N.S.

“…Bi-nuclear neutral sulfur–nitrosyl iron complex has centrosymmetrical dimeric structure, with the iron atoms being linked via μ-N–C–S bridge, δ Fe is 0.180(1)…”
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The prospects for using of carbon nanomaterials as hydrogen storage systems by Schur, D.V., Tarasov, B.P., Yu. Zaginaichenko, S., Pishuk, V.K., Veziroglu, T.N., Shul'ga, Yu.M., Dubovoi, A.G., Anikina, N.S., Pomytkin, A.P., Zolotarenko, A.D.

“…An analysis of the literature data evidences that carbon nanomaterials (CNMs) can sorb hydrogen in the amount exceeding the values required for H 2 storage…”
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X-ray photoelectron spectra of C 60·2(Ph 3P)AuCl grown from toulene by Shul'ga, Yu.M., Shul'ga, N.Yu, Graja, A.

“…X-ray photoelectron spectroscopic study of C 60·2(Ph 3P)AuCl·0.1C 6H 5CH 3 and related compounds was carried out. It was shown that the satellite structure…”
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Deuterofullerenes by Shul’ga, Yu.M, Tarasov, B.P, Fokin, V.N, Martynenko, V.M, Schur, D.V, Volkov, G.A, Rubtsov, V.I, Krasochka, G.A, Chapusheva, N.V, Shevchenko, V.V

“…We describe the results of investigations of the products obtained in the results of the interaction of solid C 60 and D 2 ( P=2 MPa) at different temperature…”
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Deuterofullerene C60D24 studied by XRD, IR and XPS by Tarasov, B.P, Shul’ga, Yu.M, Fokin, V.N, Vasilets, V.N, Shul’ga, N.Yu, Schur, D.V, Yartys, V.A

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X-ray photoelectron spectroscopic study of C60·2(Ph3P)AuCl·0.1C6H5CH3 by Shul'ga, Yu.M, Shul'ga, N.Yu, Graja, A

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X-ray photoelectron spectroscopic study of C 60·2(Ph 3P)AuCl·0.1C 6H 5CH 3 by Shul'ga, Yu.M, Shul'ga, N.Yu, Graja, A

“…We present core level X-ray photoelectron spectra of C 60·2(Ph 3P)AuCl·0.1C 6H 5CH 3 and related compounds. It is shown that the composition of surface layer…”
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Deuterofullerene C 60D 24 studied by XRD, IR and XPS by Tarasov, B.P, Shul’ga, Yu.M, Fokin, V.N, Vasilets, V.N, Shul’ga, N.Yu, Schur, D.V, Yartys, V.A

“…The deuterofullerene C 60D 24 was prepared from the solid C 60 and was characterised by means of XRD, IR and XPS. The C 60D 24 was found to be a…”
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Donor–acceptor interaction of fullerene C60 with triptycene in molecular complex TPC·C60 by Konarev, D.V., Drichko, N.V., Lyubovskaya, R.N., Shul'ga, Yu.M., Litvinov, A.L., Semkin, V.N., Dubitsky, Yu.A., Zaopo, A.

“…A molecular complex of fullerene C60 with triptycene, TPC·C60 is obtained. The complex has a three-dimensional packing of C60 molecules. According to the IR…”
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New complexes of fullerenes C60 and C70 with organic donor DBTTF: synthesis, some properties and crystal structure of DBTTF . C60 . C6H6 (DBTTF = dibenzotetrathiafulvalene) by KONAREV, D. V, ZUBAVICHUS, Y. V, SLOVOKHOTOV, YU. L, SHUL'GA, YU. M, SEMKIN, V. N, DRICHKO, N. V, LYUBOVSKAYA, R. N

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X-ray photoelectron spectra of C60·2(Ph3P)AuCl grown from toulene by Shul'ga, Yu.M., Shul'ga, N.Yu, Graja, A.

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