Poster Program
Poster session 1: Fullerenes & Nanodiamond Particles
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Fullerenes |
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|---|---|---|
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P1-01 |
Sabirov D. Sh. |
Anisotropy of polarizability of fullerene higher adducts for screening appropriate isomers for organic solar cells application |
|
P1-02 |
Meletov K.P.
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Stability at high temperature and decomposition kinetics of C60 dimers and photopolymers |
|
P1-03 |
Kuzmin A. V. |
Crystal structure and Raman spectra of the molecular complex [{Cd(Et2dtc)}2 · DABCO] · C60 · (DABCO)2 at high pressure. |
|
P1-04 |
Borisenko D.N. |
Terrestrial development of the experiments on the fullerite C60 crystal growth in microgravity. |
|
P1-05 |
Safyannikov N.M. |
Cryometry data in the bynary systems bis-adduct of C60 and indispensable aminoacids – lysine, treonine, oxyproline. |
|
P1-06 |
Szhogina A.A. |
SANS-studies of metallofullerenes with encapsulated iron atom water-soluble derivatives in aqueous solutions |
|
P1-07 |
Tuktarov A.R. |
New reactions of fullerenes with primary aryl amines and EtMgBr in the presence of Ti(Oi-Pr)4 |
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P1-08 |
Tuktarov A.R. |
Molecular switches based on fullerene C60hybrids with spiropyranes |
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P1-09 |
Andreev S.A. |
Immunobiological properties of aqueous fullerene C60 dispersion |
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P1-10 |
Khamatgalimov A.R. |
The structure and stability of higher fullerenes С104: IPR isomers 234 (Cs), 258 (C1), 812 (D2) and 822 (D3d) |
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P1-11 |
Pozdnyakov A.O. |
Thermal and UV effects on PMMA-C60composite |
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P1-12 |
Semivrazhskaya O.O. |
Highly regioselective functionalization of fullerene Cs-p7-C70(CF3)8 |
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P1-13 |
Churilov G.N. |
The EMF Y@C82 and Gd@C82 based fullerenenoles: synthesis, properties and application prospects |
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P1-14 |
Churilov G.N. |
Preparation of polymers based on fullerenes and nanoparticles of titanium carbide and their properties |
|
P1-15 |
Kosaya M.P. |
Electrochemical behaviour of the trifluoromethylated [70]fullerene reexamined |
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P1-16 |
Pykhova A.D. |
Structural and electronic properties of CF2-derivatives of Sc3N@C80 – a theoretical study |
|
P1-17 |
Elistratova M.A. |
Fullerene C60 coating to stabilize the photoluminescence of porous silicon |
|
P1-18 |
Mikheev I.V. |
Optimization of the solvent-exchange process for high-yield synthesis of aqueous fullerene dispersions |
|
P1-19 |
Semivrazhskaya O.O. |
Photoluminescence of carbon quantum dots derived from fullerenes C60 and C70 |
|
P1-20 |
Nikolaev D.N. |
Conjugates of monoadducts of fullerene C60with amino acids. |
|
P1-21 |
Sinitsa A.S. |
Transformation of amorphous carbon clusters to fullerenes |
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P1-22 |
Vysochanskaya O.N. |
Electron transfer-driven interconversion of aziridinofullerenes and azahomofullerenes |
|
P1-23 |
Kapystin S.N. |
Ion sputtering of fullerenes and carbon nanotubes |
|
P1-24 |
Suyasova M.V. |
Structural features of fullerenols’ aqueous solutions |
|
P1-25 |
Ushakova I.N. |
Tribological properties of the metal-matrix composite materials reinforced by superhard superelastic carbon particles derived from hydrogenated fullerites |
|
P1-26 |
Sudarkova S.M. |
Skeletal transformations in chlorinated C76: effect of chlorination pattern on rearrangement routes |
|
P1-27 |
Proskurnin M.A. |
Thermophysical properties of fullerenes by photothermal spectrometry |
|
P1-28 |
Deyko Yu.A. |
Design and synthesis of highly soluble double-caged fullerene derivatives |
|
P1-29 |
Veliev E.G. |
Modelling of magnesium-carbon complexes – hydrogen storage material |
|
P1-30 |
Nagorna T. |
Сlusterization aspects of fullerene C60 and C70in toluene/N-methyl-2-pyrrolidone mixture according to SANS, SAXS and DLS data |
|
P1-31 |
Litasova E.V. |
Biodegradation of fullerene C60 by myeloperoxidase |
|
P1-32 |
Akhmetov A.R. |
Molecular design of new hybrid systems based on fullerene and norbornadienes |
|
P1-33 |
Sokolovsky D.N. |
Effect of high pressures on the structure of single crystals C70 |
|
P1-34 |
Ismailov D.V. |
Synthesis of fullerenes in arc discharge in helium atmosphere |
|
P1-35 |
Pozdnyakov A.O. |
Thermal and UV effects on PBMA-C60composite: experiment and modeling |
|
P1-36 |
Gazizov R.R. |
Photochemical reaction of fullerenes with perfluoroalkyliodides |
|
P2-01 |
Ivanov M.G. |
Nanocarbon-based Nanolubricants: antioxidant properties |
|
P2-02 |
Dolmatov V.Yu. |
Detonation nanodiamonds effect of the silvering electrolyte anodic process |
|
P2-03 |
Dolmatov V.Yu. |
Gas chromatography-mass spectrometry analysis of detonation nanodiamonds (DNDs) and diamond blend (DB) |
|
P2-04 |
Igo A.V. |
Influence of geometry of nanocrystals on the Raman spectra |
|
P2-05 |
Petrov M.P. |
Optical and electro-optical properties of detonation nanodiamond colloids |
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P2-06 |
Petrov M.P. |
Polarizability and surface conductivity of submicron particles of diamond in aqueous uni-valent electrolytes |
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P2-07 |
Korsukov V.E. |
Effect of heat treatment and tension on the surface morphology of thin Pt foils |
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P2-08 |
Soboleva O.A. |
Influence of surfactant adsorption on the distribution of nanodiamonds in water/organic liquid systems |
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P2-09 |
Soboleva O.A. |
Oxidized diamond detonation soot as a filler for composite films based on polyvinyl alcohol |
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P2-10 |
Yakovlev R.Y. |
Immobilization of biologically active substances on detonation nanodiamonds |
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P2-11 |
Rubtsov I.A. |
Registration of the process of nanodiamonds formation of various sizes |
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P2-12 |
Ryazanova A.I. |
Properties of “boron+vacancy” complexes in diamond surface layers |
|
P2-13 |
Vereshchagin A.L. |
Detonation nanodiamonds and drops prince rupert |
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P2-14 |
Nesterenko P.N. |
Investigation of the structure of single digit detonation nanodiamond aggregates by small angle neutron and X-ray scattering |
|
P2-15 |
Vervald E.N. |
Influence of DNA molecules adsorption on fluorescence of nanodiamonds |
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P2-16 |
Anisimov A.N. |
Room-temperature ODMR and LAC spectroscopy of color centers in carbon structures for local magnetometry and stress diagnostics |
|
P2-17 |
Davydov V.A. |
Study of optical properties of the NV and SiV centers in diamond at high pressures |
|
P2-18 |
Sarmanova O.E. |
Monitoring of nanodiamond composites excretion out of the organism using artificial neural networks |
|
P2-19 |
Kudryavtsev O.S. |
Direct synthesis of nitrogen-doped nanodiamonds from organic compounds |
|
P2-20 |
Plastun I.L. |
Molecular modeling of targeted drug delivery by diamond-like nanoparticles |
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P2-21 |
Vervald A.M. |
Interactions of nanodiamonds and surfactants in aqueous suspensions |
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P2-22 |
Popov V.A. |
Application of nanodiamonds as precursor for development of mechanically alloyed metal matrix composites with in situ synthesized TiC nanoreinforcements
|
|
P2-23 |
Popov V.A. |
Investigation of the thermal diffusivity of the metal matrix composites with the nanodiamond reinforcements |
|
P2-24 |
Takagi M. |
Improvement of durability of silver-plated electrical contacts by nanodiamond composite technology |
|
P2-25 |
Shvidchenko A.V. |
Counterion condensation in hydrosols of single-crystal detonation nanodiamond particles obtained by air annealing of their agglomerates |
|
P2-26 |
Shestakov M.S. |
Ozone gas treatment for detonation nanodiamond processing and surface modification |
|
P2-27 |
Vins V.G |
Irradiation effect on optical absorption of impact diamonds from the Popigai meteorite crater |
|
P2-28 |
Sigalaev S.K. |
The effect of temperature treatment on the graphitization of the surface of detonation nano- and microdiamonds |
|
P2-29 |
Leshchev D.V. |
Modelling of the chemistry during diamond CVD: multi-scale approach |
|
P2-30 |
Leshchev D.V. |
Modelling of the growing diamond surface during CVD |
|
P2-31 |
Kondrin M. V. |
Isotopic effects in impurity-vacancy complexes in diamond |
|
P2-32 |
Razgulov A.A. |
High pressure photoluminescence studies of diamond with GeV centres |
|
P2-33 |
Romanov N.M. |
Infrared absorption studies and thermal resistance of the fluorinated surface of detonation nanodiamond |
|
P2-34 |
Grudinkin S.A. |
Synthesis and photoluminescence of low-strain CVD nanodiamonds with silicon-vacancy colour centres |
|
P2-35 |
Kuznetsov N.M. |
Small-angle X-ray scattering study of detonation nanodiamonds clustering in polydimethylsiloxane |
|
P2-36 |
Stolyarova D.Yu. |
Rheological behavior of detonation nanodiamond hydrosols |
|
P2-37 |
Nguyen B.T.T. |
The study of effect of surfactant on free radicals in powders of DND by EPR-spectroscopy |
|
P2-38 |
Nguyen B.T.T. |
On the possible manifestation of detonation nanodiamonds (DNDs) superconductivity effect |
Poster session 2: School for Young Scientists & Carbon Nanostructures
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School of Young Scientists |
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|---|---|---|
|
Y-01 |
Pekh P.L. |
Tamm miniband in the grapheme superlattice |
|
Y-02 |
Zhukova E.A. |
Carbon nanotube synthesis controlled by monohydric alcohols variation in feedstock |
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Y-03 |
Kremlev K.V. |
Novel hybrid materials based on multiwall carbon nanotubes decorated with chromium oxide and iron / iron carbide coatings |
|
Y-04 |
Kremlev K.V. |
Synthesis and characterization of Al2O3 /MWCNTs and ZrO2 /MWCNTs hybrid materials |
|
Y-05 |
Stolyarova S.G. |
Revealing the nitrogen species in N-doped holey graphite by X-ray photoelectron spectroscopy |
|
Y-06 |
Myasnikov I. Yu. |
Influence of nanodiamonds modification by biologically active compounds on the physical chemical properties of suspensions |
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Y-07 |
Ivanov A.I. |
The resistive switching effect in the two-layered structures of partially fluorinated graphene and polyvinyl alcohol |
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Y-08 |
Ivanov A.I. |
The resistive switching effect in the composite films of partially fluorinated graphene with a nanocristals of V2O5 |
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Y-09 |
Ryazanova A.I. |
Vacancies in the С(100)-(2×1) diamond surface layers |
|
Y-10 |
Lobanova E.Yu. |
Modification of electronic structure of graphene/metal interface via silicon intercalation |
|
Y-11 |
Rostovtseva V.A. |
Fullerene C60 containing star-shaped polystyrene as modifiers for gas separating membranes |
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Y-12 |
Rudakova D.A. |
Membranes containing star-shaped macromolecules with fullerene C60 core for propyl acetate production |
|
Y-13 |
Markin G.V. |
Bis(arene)chromium morpholino[4,3:1,2]pyrrolidino[3,4:1,2]fullerides |
|
Y-14 |
Sokolovsky D.N. |
Effect of high pressures on the electrical properties of single-walled and double-walled carbon nanotubes |
|
Y-15 |
Gurova O.A. |
Physicochemical properties of single-wall carbon nanotubes with different conductivity types |
|
Y-16 |
Slyusarenko M.A. |
Complexes of endohedral metallofullerenes Fe @ C60 with water-soluble polymers: hydrodynamic properties |
|
Y-17 |
Mingaleva A.E. |
Study of fullerite C60 modification after barothermic treatment |
|
Y-18 |
Petrova O. V. |
Angular dependencies study of absolute absorption cross section in the NEXAFS C1s-spectrum range of HOPG |
|
Y-19 |
Shumilov F.A. |
Distribution of detonation nanodiamonds by the Langmuir-Blodgett’s method |
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Y-20 |
Chepkasov I.V. |
Computer simulation of thermal and mechanical stability of carbon onion |
|
Y-21 |
Jityaev I.L. |
Localized enhancement of electric field in planar blade multigraphene/SiC field emitters |
|
Y-22 |
Aporoski A.V |
Features of amplification, decay and absorption of initial radiation in pumped two-level medium based on array of nanotubes |
|
Y-23 |
Amel'chuk D.G. |
Graphene growth by method of thermal destruction of 4H-SiC surface in argon |
|
Y-24 |
Balueva Yu.V. |
Application of laser diffraction technique for graphene oxide flakes size determination in aqueous suspensions |
|
Y-25 |
Krasnova A.O. |
Structure of composite electrodes with the carbon nanofibers addition for electrochemical systems |
|
Y-26 |
Krasnova A.O. |
Thermally expanded graphite in a polymer-carbon nanocomposite for electrochemical systems |
|
Y-27 |
Yudina E.B. |
Determination of detonation nanodiamond ion-exchange capacity |
|
Y-28 |
Popov K.M. |
CVD graphene synthesis on copper substrates |
|
Y-29 |
Trofimuk A.D. |
Size separation of individual detonation nanodiamond particles in hydrosols |
|
P3-01 |
Bogdanov A.S. |
Mechanical and thermal properties of sintered detonation nanodiamonds |
|
P3-02 |
Vins V.G. |
Some optical properties of isotopically modified HPHT grown diamonds |
|
P3-03 |
Uzbekov R.E. |
New superparamagnetic fluorescent Fe@C nanoparticles for biological applications |
|
P3-04 |
Golov A.A. |
SACADA - carbon allotropes database |
|
P3-05 |
Galunin E.V. |
An equilibrium study of the liquid-phase sorption of Lead (II) ions on nanoporous carbon materials |
|
P3-06 |
Davletova O.A. (Boroznina E.) |
Carbon monoxide sensor based on pyrolized polyacrylonitrile carbon nanostructure |
|
P3-07 |
Solodovnichenko V.S. |
Carbon-coated alumina nanofibers as a precursor for ion-selective membranes |
|
P3-08 |
Orlova T.S. |
Peculiarities of galvanomagnetic behaviour of partially graphitized biocarbons |
|
P3-09 |
Orlova T.S. |
Structure and mechanical properties of activated wood biocarbon |
|
P3-10 |
Blokhin A.N. |
Composite materials using fluorinated graphene nanoplatelets |
|
P3-11 |
Moshnikov I.A. |
Nano-structured shungite rocks and electrophysical properties associated |
|
P3-12 |
Terranova M.L. |
Shungite carbon and polypyrrole for the fabrication of supercapacitor electrodes: opportunities and challenges |
|
P3-13 |
Arkhipov A.V. |
Structural study of carbon films capable of low-field electron emission |
|
P3-14 |
Goryunov A.S. |
Shungite nanocarbon biological interactions: ligand transfer interplay with protein molecules |
|
P3-15 |
Goryunov A.S. |
Shungite nanocarbon biological interactions: redox effects in dispersions of organic and inorganic components |
|
P3-16 |
Arkhipov A.V. |
Electron-phonon interaction and low-field emission from nanocarbons |
|
P3-17 |
Mikhailova S.L. |
Electrical properties and structure of amorphous diamond-like carbon nano-sized films embedded with silver and titanium |
|
P3-18 |
Ershov I. |
Structural and electronic properties of nanostructured graphite |
|
P3-19 |
Gataoullin A.R. |
Colloidal aspects of carbon nanostructures stable dispersions preparation for polymer materials modification |
|
P3-20 |
Vedyagin A.A. |
Variety of carbon nanostructures derived from halogenated C1+ hydrocarbons |
|
P3-21 |
Babkin A.V. |
Kinetics of the Cu (II) sorption from aqueous solutions by carbon nanomaterials |
|
P3-22 |
Maltsev A. A. |
An improved adsorption method for average pore size estimation in supercapacitor electrodes |
|
P3-23 |
Tikhomirova G.V. |
Studies of graphite transformation at cold compression |
|
P3-24 |
Kuis D.V. |
Influence of B and Fe on the structure and the properties of superhard composite on the basis of nano-carbon at high pressure |
|
P3-25 |
Bogdanov S.A. |
Investigation of synthesis of nanocrystalline diamond films grown on Si, SiC and AlN substrates |
|
P3-26 |
Kiseleva E.A. |
Electrodes of supercapacitors from nanoporous carbon with nanocarbon additives |
|
P3-27 |
Goryunkov A.A. |
Novel buckybowl accetors for organoelectronic applications |
|
P3-28 |
Rozhkov S.S. |
Dynamic behavior of shungite carbon nanoparticles in water dispersion: ESR spin-probe study |
|
P3-29 |
Semak B.V. |
Optimal TEG construction |
|
P3-30 |
Voznyakovskii A.A. |
New hybrid material DND/CNT - synthesis and characterization |
|
P3-31 |
Rozhkov S.S. |
Structural conversion of complex-organized shungite carbon nanoparticles under microarc oxidation of aluminum alloys |
|
P3-32 |
Sarmanova O.E. |
Estimation of efficiency of carbon nanocomposites excretion out the body by their fluorescence using neural network methods of classification |
|
P3-33 |
Kagan M.S. |
Transport in diamond Schottky barrier diodes |
|
P3-34 |
Chernysheva M.G. |
Effect of surface oxidation of detonation nanodiamonds on Myramistin adsorption |
Poster session 3: Graphene & Related Materials + Carbon Nanotubes
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Graphene & Related Materials |
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|---|---|---|
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P4-01 |
Shevelev V.O. |
Characterization of single-layer graphene on metallic substrates using Raman spectroscopy |
|
P4-02 |
Eletskii A.V. |
Electrical properties of thermally reduced graphene oxide |
|
P4-03 |
Nebogatikova N. A. |
Edge reconstruction for few-layer graphene films nanostructuring |
|
P4-04 |
Konobeeva N.N. |
Conductivity of impurity graphene nanoribbons and gate electric field |
|
P4-05 |
Bondarenko M.E. |
Synthesis of heteroatomic N-graphene (azagraphene) and carbon nitride oxide as its precursor |
|
P4-06 |
Stolyarova S.G. |
Composites based on holey graphite and SnS2 |
|
P4-07 |
Rebrikova A.T. |
Multilayered swelling of solvents into graphite oxide |
|
P4-08 |
Shavelkina M.B. |
On the hydrogen interactions with graphite and graphene structures |
|
P4-09 |
Shavelkina M.B. |
Continuous and catalyst-free synthesis of hydrogenated graphene using plasma jet |
|
P4-10 |
Ziatdinov A.M. |
The change of edge zero modes of few-layer nanographenes under the influence of adsorbate |
|
P4-11 |
Rozhkov M.A. |
On MD simulation of new pseudo-graphene crystals |
|
P4-12 |
Dementjev A.P |
The singularity of the pz→π transitions in multilayer graphenes: HOPG, MWCNT, OLC and solid C60 |
|
P4-13 |
Skokan E.V. |
Fluorination of graphene, formed on the surface of copper by CVD |
|
P4-14 |
Yakimchuk E.A. |
2D printed graphene layers with high carrier mobility |
|
P4-15 |
Ktitorov S. A. |
Field Enhancement due to Light Scattering on Ripples in Graphene |
|
P4-16 |
Komarov I.A. |
Detection of small amounts of thrombin with graphene based aptasensor |
|
P4-17 |
Kotin I.A. |
Graphene-based heterostructures fabricated by inkjet printing |
|
P4-18 |
Ershov I. |
First–principles study of the structural and electronic properties of graphene absorbed on MnO(111) surfaces |
|
P4-19 |
Begletsova N.N. |
Influence of graphene sheets on the fluorescence properties of graphene-CdSe/CdS/ZnS quantum dots hybrid structure |
|
P4-20 |
Yakimchuk E.A. |
Graphene functionalized with N-Methyl-2-pyrrolidone as a dielectric material for printing technologies |
|
P4-21 |
Goloudina S.I. |
Formation of nano graphite films by carbonization of rigid-chain polyimide Langmuir-Blodgett films |
|
P4-22 |
Struchkov N.S. |
Graphene oxide local reduction by modulated laser irradiation for thermal sensor application |
|
P4-23 |
Kalbac M. |
Strategies for covalent functionalization of single layer graphene |
|
P4-24 |
Shinkarenko O. A. |
Catalytic pyrene and pyrene butyric acid condensation as a means of producing graphene |
|
P4-25 |
Estyunin D.A. |
Manipulation of electronic structure of graphene grown on Ir(111) and Re(0001) by Pb atoms intercalation |
|
P4-26 |
Shinkarenko O.A. |
The perspective composite material ‘CSNT-graphene’ |
|
P4-27 |
Al-Alwani A.J.K. |
Studying the formation of graphene sheets thin film assembled by Langmuir-Blodgett technique |
|
P4-28 |
Kostogrud I.A. |
Methods of CVD graphene transfer from the copper substrate on PET/EVA and PMMA polymers |
|
P4-29 |
Lebedev S.P. |
Application of graphene on silicon carbide as a basis for gas- and biosensors creation |
|
P4-30 |
Seliverstova E. |
Study of the reduced graphene oxide films prepared by LangmuirBlodgett method |
|
P4-31 |
Voznyakovskii A.P. |
Facile method for preparation of graphene sheets for polymer composite applications |
|
P4-32 |
Dehghani Ghorbi H. |
Synthesis of titanium dioxide-graphene nanocomposites (TiO2 -G) by the hydrothermal method and their applications for removing heavy metal ions of cadmium(II), lead(II) and copper(II) |
|
P4-33 |
Ahmadi Kashani M. |
Facile preparation and study of optical and electrochemical properties of PbS nanostructures and PbS/ graphene nanocomposites |
|
P4-34 |
Kvashnin A.G. |
Evolutionary search for new materials with optimal properties |
|
P4-35 |
Meshkov G.B. |
Scanning probe microscopy of carbon nanostructures formed by the electrochemical oxidation of graphite |
|
P4-36 |
Poklonski N.A. |
Quantum capacity of zigzag graphene nanoribbon passivated by boron and hydrogen atoms at edges |
|
P4-37 |
Gudkov M.V. |
Reduced graphene oxide aerogels: new generation of super light materials |
|
P4-38 |
Malyshkin V. |
Optimized carbon material for supercapacitors based on few-layer graphene |
|
P4-39 |
Preobrajenski A. |
On-surface synthesis of graphene nanoribbons studied by core-level spectroscopies and STM |
|
P4-40 |
Rabchinskii M.K. |
Stages of graphene oxide reduction process under alkaline conditions |
|
P4-41 |
Dubois M. |
Superhydrophobicity of nanocomposite films via fluorine atoms covalent attachment and surface nano-texturing |
|
P5-01 |
Bocharov G.S. |
Specific surface of carbon nanotubes and their filling with argon |
|
P5-02 |
Simunin M.M. |
The combustion technology for functional elements of electronics based on carbon nanotubes and graphene |
|
P5-03 |
Il'ina M.V. |
Non-uniform elastic strain as the memristive switching origin in carbon nanotube |
|
P5-04 |
Ilin O.I. |
Effect of growth time on geometric parameters and structural perfection of multi-walled carbon nanotubes |
|
P5-05 |
Rodin E.A. |
Properties of p-electron conjugated system in closed carbon nanotubes |
|
P5-06 |
Rodin E.A. |
Influence of admixture atom chemosorption on properties of p-electron conjugated system of open carbon nanotubes |
|
P5-07 |
Boroznin S.V. |
Hydrogenization of carbon nanotubes with boron impuritues |
|
P5-08 |
Popov K. M. |
Electrochemical oxidation of papers made from carbon nanotubes and reduced graphite oxide in aqueous electrolytes |
|
P5-09 |
Skryleva E.A. |
The effect of chlorine on chemical composition of MWCNT |
|
P5-10 |
Sozykin S.A. |
Optical properties of defective single-wall carbon nanotube (7,7) |
|
P5-11 |
Boyarkina O.V. |
Characters of electronic structure of single-walled carbon nanotubes in different methods of calculation |
|
P5-12 |
Konobeeva N.N. |
Multidimensional extremely short optical pulses in the carbon nanotubes medium with polymers |
|
P5-13 |
Chesnokov V.V. |
Application of carbon nanotubes as electrodes in supercapacitor |
|
P5-14 |
Moliver S.S. |
Modelling chemisorption of carbon dimer at (8,0) nanotube |
|
P5-15 |
Gurova O.A. |
Preparation of carbon nanotubes different size and their penetration in biological tissues |
|
P5-16 |
Polikarpov Yu.A. |
Formation of nanoscale contacts for charge transport study in organic materials |
|
P5-17 |
Filatenkov A.E |
Mechanoactivation of amorphous carbon obtained from plant raw materials as a method for obtaining carbon nanotubes |
|
P5-18 |
Dvuzhilov I.S. |
Inhomogeneous environment of the carbon nanotube influences to the propagation dynamics of the discrete solitons |
|
P5-19 |
Boroznina N.P. |
Comparative analysis of interaction of carbon nanotubes modified with functional groups |
|
P5-20 |
Kulakova I.I. |
Effect of nanodiamond and carbon nanotubes oxidative treatment on their activity in alcohols C2-C4 conversion |
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P5-21 |
Nevzorova Yu.V. |
Doping of carbon nanotubes – way to asphalt improving |
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P5-22 |
Boroznin S.V. |
Vacancy transport properties in carbon arm-chair nanotubes with boron impurities BC3 type |
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P5-23 |
Neverovskaya A.Yu. |
Facile method preparation of single-wall carbon nanotube suspension in nonpolar media |
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P5-24 |
Rasoolzadeh R. |
Study of capecitabine and 5-fluorouracil anticancer and interactions with single-walled carbon nanotube |
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P5-25 |
Vozniakovskii A.A. |
Study of aluminum/carbon nanofibers composites and the investigation of its strength and thermal properties |
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P5-26 |
Elbakyan L.S. |
Interaction mechanisms of the structural units of methyl methacrylate, butylmethacrylate and methacrylic acid multi-component copolymers wirh carbon nanotubes |
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P5-27 |
Alyabev D.V. |
Low energy hydrogen interaction with a bundle of carbon nanotubes |
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P5-28 |
Ksenevich V.K. |
Carbon nanotubes based epoxy resin composites: characterization by impedance spectroscopy |
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P5-29 |
Faradzheva M.P. |
Nanosecond studies of granular structures HTSC- nanotubes |