POSTER SESSIONS
|
|
| |
1. Graphene
|
|
| P1.01 |
Abdurakhmanova N., Amsharov N.,
Amsharov K., Stepanow S., Jansen M., Kern
K.
Facile synthesis of graphene nanoribbons with
adjustable width at surfaces |
70
|
| P1.02 |
Avramov P., Sakai S., Kuzubov A., Entani
S., Matsumoto Y., Naramoto H.
Structure, potential energy surfaces and electronic
states of graphene- and multigraphene-based
2D extended complex nanocomposites |
71
|
| P1.03 |
Babichev A.V., Gasumyants V.E.,
Butko V.Y.
Electron transport and thermoelectric power
in CVD grown centimeter size grapheme |
72
|
| P1.04 |
Davydov V.Ya., Kalashnikova E.V.
Evaluation of adsorption properties of grapheme
|
73
|
| P1.05 |
Davydov S.Yu.
Epitaxial graphene on metals: charge-transfer
effect |
74
|
| P1.06 |
Davydov S.Yu.
Graphene elastic moduli in the Keating model
|
75
|
| P1.07 |
Efimkin D.K., Lozovik Yu. E
Electron-hole pairing with finite value of
Cooper pair momentum in graphene bilayer |
76
|
| P1.08 |
Ershov I.
Ab initio study of surface states at the graphene/Al2O3(0001)
interface |
77
|
| P1.09 |
Fedorov A.S., Fedorov D.A., Eliseeva
N.S., Kuzubov A.A.
Vacancies influence on elastic properties
of graphene and their migration rate under
deformation |
78
|
| P1.10 |
Fedorov A.V., Haberer D., Liu X.,
Treske U., Grobosch M., Vilkov O.Yu., Grueneis
A., Usachov D.U., Adamchuk V.K.
Kinetics of graphene hydrogenation: XPS study
|
79
|
| P1.11 |
Gaboardi M., Ricco M., Pontiroli
D., Mazzani M., Aramini M., Choucair M., Stride
J.A., Yazyev O.V.
μSR study of hydrogen interactions with defective
grapheme |
80
|
| P1.12 |
Grichuk E., Manykin E.
Spin-polarized quantum pumping in zigzag graphene
nanoribbons |
81
|
| P1.13 |
Ilyasov V., Meshi B., Ryzhkin A.,
Ershov I., Ilyasov A.
Substrate-induced magnetism in epitaxial single
layer graphene |
82
|
| P1.14 |
Ivanchenko G.S., Nevzorova Ju.V.,
Kolesnikov D.V.
Phonon spectrum of graphene bilayer and monolayer
grapheme |
83
|
| P1.15 |
Kotov O.V., Lozovik Yu.E., Medvedev
V.V.
Graphene on a subwavelength metallic grating:
anomalous optical properties |
84
|
| P1.16 |
Kozhemyakina N.V., Hirsch A.
Graphene from graphite: the "wet" approach
|
85
|
| P1.17 |
Chernozatonskii L.A., Kvashnin D.G.,
Eliseev A.I.
Quantum dots based on graphane and graphane
ribbons: structure and properties |
86
|
| P1.18 |
Latyshev Yu.I., Orlov A.P., Monceau
P., Escoffier W.
Aharonov-Bohm effect on nanoholes in thin
graphite and grapheme |
87
|
| P1.19 |
Lebedev S.P., Strel'chuk A.M., Shamshur
D.V., Agrinskaya N.V., Lebedev A.A.
Transport properties of multi-graphene films
grown on semi-insulating SiC |
88
|
| P1.20 |
Bobrinetskiy I.I., Levin D.D., Nevolin
V.K., Simunin M.M.
The CVD formation of multi-graphene clusters
in CNT growth system CVDomna |
89
|
| P1.21 |
Lyapkosova O.S., Lebedev N.G., Belonenko
M.B.
Nonlinear electromagnetic waves in a graphene
ribbon system under the deformation gauge
fields |
90
|
| P1.22 |
Mikoushkin V.M., Shnitov V.V., Nikonov
S.Yu., Dideykin A.T., Vyalikh D.V., Vilkov
O.Yu.
Chemical restoration of few layer exfoliated
graphite oxide studied by photoelectron spectroscopy
|
91
|
| P1.23 |
Nechaev Yu.S.
Some aspects of the graphene-graphane problem
|
92
|
| P1.24 |
Nevzorova J.V., Lebedev N.G., Ivanchenko
G.S.
The conductivity two-layer graphene nanoribbons
in external electric field |
93
|
| P1.25 |
Pak A.V., Lebedev N.G., Belonenko M.B.
The study of exchange indirect interaction
in the impurity bigraphene |
94
|
| P1.26 |
Popova A., Shikin A.M., Rybkin A.G., Marchenko
D., Vilkov O., Varykhalov A., Rader O.
Features of the electronic structure of graphene
on top of different substrates |
95
|
| P1.27 |
Popova N.A., Sheka E.F.
Stepwise hydrogenation and fluorination of
graphene towards graphane and fluoride |
96
|
| P1.28 |
Popova N.A., Sheka E.F.
Effect of chemical modification on tricotage-like
deformation of grapheme |
97
|
| P1.29 |
Rozhkova N.N.
Nonplanar graphenes in shungite carbon nanoclusters |
98
|
| P1.30 |
Sabirova G.I., Davydov S.Yu.
On the calculation of the charge transfer
due to atom adsorption on grapheme |
99
|
| P1.31 |
Sedelnikova O.V, Bulusheva L.G., Okotrub
A.V.
Curvature-induced optical transitions in grapheme
|
100
|
| P1.32 |
Shaymardanova L.Kh., Sheka E.F., Popova
N.A.
The hexagon molecular motive as main factor
for the failure of chemically modified grapheme
|
101
|
| P1.33 |
Shnitov V.V., Lebedev S.P., Lebedev A.A.,
Mikoushkin V.M.,Nikonov S.Yu., Yakimova R.,
Vilkov O.Yu., Nelyubov A.V.
Investigation of graphene films grown on SiC
substrate subjected to original pre-growth
treatment |
102
|
| P1.34 |
Smovzh D.V., Koverznev M.P., Nerushev O.A.
Low temperature thermal-CVD of methane |
103
|
| P1.35 |
Lozovik Yu.E., Sokolik A.A.
Electron-hole cooper pairing in graphene bilayer
|
104
|
| P1.36 |
Ribas M.A., Singh A.K., Sorokin P.B.,
Yakobson B.I.
Nanoroads and quantum dots on fluorinated
grapheme |
105
|
| P1.37 |
Zaporotskova I.V., Stepanova A.U.
Research of the nanopour creation mechanism
at the thin-filmed systems of the different
nature |
106
|
| P1.38 |
Sudorgin S.A., Belonenko M.B., Lebedev
N.G.
Transport coefficients of bilayer graphene
|
107
|
| P1.39 |
Vinogradov N., Ng M.L., Simonov K., Martensson
N., Preobrajenski A.B.
Reversible chemical reactions on adsorbed
grapheme |
108
|
| P1.40 |
Yanyushkina N.N., Belonenko M.B., Lebedev
N.G.
Solitons in a system of a coupled bilayer
graphene waveguides |
109
|
| |
|
|
| |
2. Carbon Nanotubes
|
|
| P2.01 |
Algaer Yu.A., Okotrub A.V.
Investigation of properties of carbon nanotube-cadmium
sulfide nanoparticle hybrids |
110
|
| P2.02 |
Blank V.D., Alshevskiy Yu.L., Batov D.V.,
Kazennov N.V.,Tatyanin E.V., Ivanov L.A.
Transparent SWNT and MWNT mixture films |
111
|
| P2.03 |
Bagatskii M.I., Dolbin A.V., Sumarokov
V.V., Barabashko M.C.
The features of the low temperature behavior
of heat capacity and thermal expansion of
bundles of single-walled carbon nanotubes
|
112
|
| P2.04 |
Belolipetskii A.A., Lebedev N.G. The quantum
chemical research
of the dependence of SWCN's dipole moment
|
113
|
| P2.05 |
Bessonova A.V., Bobrinetskiy I.I., Nevolin
V.K., Simunin M.M.
The macropores investigation in carbon nanotubes
agglomerates |
114
|
| P2.06 |
Bobrinetskiy I.I., Kireev D.M., Seleznev
A.S., Morozov R.A.
The creation of biocompatible transparent
CNT-electrodes |
115
|
| P2.07 |
Butko V.Y., Fokin A.V., Nevedomsky V.N.,
Sisoeva A.A., Kumzerov Y.A.
Carbon nanotube fabrication inside nano-channel
porous materials |
116
|
| P2.08 |
Bychanok D.S., Shuba M.V., Maksimenko S.A.,
Kanygin M.A., Okotrub A.V.
Model of anisotropy of deformed polymer carbon
nanotube based composites in Ka-band (26-37
GHz) |
117
|
| P2.09 |
Chernukhina A.A., Ermilov A.Yu.
Potential magnetic properties of carbon nanotube
fragments (n, 0) with asymmetrical edges |
118
|
| P2.10 |
Bocharov G.S., Eletskii A.V.
Degradation of a CNT-based field emission
cathode due to ion sputtering |
119
|
| P2.11 |
Fedorov I.V., Kireev D.M., Bobrinetskiy
I.I., Nevolin V.K.
The investigation of photoactive J-aggregates
of cyanine dyes – carbon nanotubes composite
for the application in high-efficiency photoelectric
converters |
120
|
| P2.12 |
Fedorovskaya E.O., Okotrub A.V., Bulusheva
L.G.
Polyaniline coated aligned carbon nanotubes
for electrochemical supercapacitors |
121
|
| P2.13 |
Fronya A.A., Chernodub M.L., Osipov M.V.,
Puzyrev V.N., Starodub A.N.,
Zaramenskikh K.S., Zharikov E.V. Laser-produced
plasma of carbon nanotubes |
122
|
| P2.14 |
Goupalov S.V.
Implications of time-reversal symmetry for
band structure and optical properties of carbon
nanotubes |
123
|
| P2.15 |
Goupalov S.V.
Semi-analytical theory of exciton fine structure
in carbon nanotubes |
124
|
| P2.16 |
Ichkitidze L.P., Selishchev S.V., Ryndina
T.S., Tabulina L.V., Shulitski B.G., Galperin
V.A., Shaman Yu.P.
Composite nanomaterial based on protein and
multiwall carbon nanotubes |
125
|
| P2.17 |
Ichkitidze L.P., Podgaetsky V.M., Selishchev
S.V.
Electrical conductivity of composite nanomaterial
with carbon nanotubes |
126
|
| P2.18 |
Ivanchenko G.S., Nevzorova Yu.V., Mikhaylov
A.V.
The research on adsorption of methane on carbon
nanotube surface |
127
|
| P2.19 |
Kanygin M.A., Bychanok D.S., Okotrub A.V.
Influence of stretch ratio on the dielectric
response of polymer composite, consisting
multiwall carbon nanotubes |
128
|
| P2.20 |
Khavrel P.A., Ioffe I.N., Chernukhina A.A.,
Skokan E.V., Sidorov L.N.
Theoretical study of CNTs functionalized by
fluorine and chlorine |
129
|
| P2.21 |
Glukhova O., Kirillova I., Kolesnikova
A.
Investigation of the effect of bending on
the polymerization of fullerenes inside carbon
nanotubes |
130
|
| P2.22 |
Kondrashov V.A., Nevolin V.K.
Toroidal modification of carbon nanotubes
|
131
|
| P2.23 |
Kosakovskii G.G., Kosakovskaya Z.Ya., Orlov
A.N., Smolovich A.M.
About the mechanism of field emission of carbon
nanostructures |
132
|
| P2.24 |
Zaporotskova I.V., Krutoyarov A.A.,
Krutoyarova N.V., Perevalova E.V.,
Boroznin S.V. Investigation of the interaction
between some polymers and carbon nanotubes
|
133
|
| P2.25 |
Ksenevich V.K., Gorbachuk N.I., Poklonski
N.A., Samuilov V.A., Kozlov M.E., Wieck A.D.
Impedance of single-wall carbon nanotubes
fibers |
134
|
| P2.26 |
Kuznetsov K.M., Arutyunyan N.R., Chernov
A.I., Obraztsova E.D.
Alignment of single-wall carbon nanotubes
along preferred axis in suspensions and polymeric
films |
135
|
| P2.27 |
Latypov Z.Z.
Anizotropic reinforcement of polymeric composites
properties by electromagnetic orientations
of carbon nanotubes |
136
|
| P2.28 |
Meriakri V.V., Chmutin I.A., Ryvkina N.V.,
Zhou S.
Dielectric properties of the nano composites
on the base of crosslinked
poly(ε-caprolactone)
|
137
|
| P2.29 |
Moliver S.S.
Stone-Wales defect generation in carbon nanotube
being fractured |
138
|
| P2.30 |
Moseenkov S.I., Kuznetsov V.L., Elumeeva
K.V., Larina T.V., Anufrienko V.F.,
Romanenko A.I., Anikeeva O.B. Comparative
study of reflectance properties of nanodiamonds,
onion-like carbon and multiwalled carbon nanotubes
|
139
|
| P2.31 |
Mueller A., Amsharov K., Jansen M.
Synthesis of end-cap precursor molecules for
the controlled growth of single-walled carbon
nanotubes |
140
|
| P2.32 |
Nguyen H.V., Luu S.T., Fadeeva E.V., Rakov
E.G.
Solubility of functionalized carbon nanofibers
in different aqueous media |
141
|
| P2.33 |
Orlov O.M., Matyushkin I.V., Krasnikov
G.Ya. Comparative study of NVM
elements based on single-walled carbon nanotubes
and silicon nanocrystals |
142
|
| P2.34 |
Paddubskaya A.G., Kuzhir P.P., Kuznetsov
V.L., Mazov I.N., Moseenkov S.I., Ishchenko
A.V., Romanenko A.I., Anikeeva O.B., Buryakov
T.I.
CNT/ PMMA electromagnetic coating:effect of
carbon nanotube diameter |
143
|
| P2.35 |
Pelech I., Narkiewicz U., Owodzin K., Borowiak-Palen
E.
Microwave-assisted acid digestion method for
purification of carbon nanotubes |
144
|
| P2.36 |
Pelech R., Pelech I.
Adsorption of methylene blue onto chemical
modificated carbon nanotubes |
145
|
| P2.37 |
Ponomarchuk V.A., Titov A.T., Semenova
D.V.
Oldest natural carbon micro- and nanotubes
on the Earth |
146
|
| P2.38 |
Popov A.S., Belonenko M.B., Lebedev N.G.
Propagating of a light bullet through the
beam of CNT with a metallic inhomogeneity
lattice |
147
|
| P2.39 |
Prikhodko A., Konkov O.
Carbon clusters as an example for self-organization
|
148
|
| P2.40 |
Belousova I.M., Kislyakov I.M., Videnichev
D.A., Ryzhov A.A., Volynkin V.M.
Composite material with the carbon nanostructures
for the applications in optical power limiting
|
149
|
| P2.41 |
Shamina E.N., Lebedev N.G.
Electronic structure of carbon nanotubes in
benzene solution |
150
|
| P2.42 |
Shoji M., Ito T., Ogata H.
Fabrication and characterization of hybrid
solar cells based on semiconducting single-walled
carbon nanotubes |
151
|
| P2.43 |
Slepicheva M., Chernyshev Y., Basteev A.,
Bazyma L., Ugryumov M.
Hydrogen sorption process modeling on the
periodic structures formed by carbon nanotubes
|
152
|
| P2.44 |
Tohati H.-M., Nemeth K., Kamaras K., Ben-Valid
S., Zeng A., Reiss L., Yitzchaik S., Pietraszkiewicz
M., Pietraszkiewicz O., Maggini L., Bonifazi
D.
Infrared spectroscopic investigation on non�covalently
functionalized single walled carbon nanotubes
|
153
|
| P2.45 |
Tomilin O.B., Muryumin E.E., Rodionova
E.V.
The regularities of p-electron conjugation
in carbon nanotubes |
154
|
| P2.46 |
Tomilin O.B., Muryumin E.E., Rodionova
E.V.
A p-electron conjugation in fullerenes and
carbon nanotubes |
155
|
| P2.47 |
Zaglyadova S.V., Maslov I.A., Don A.K.,
Kuptsov A.K., Zhigalina V.G.
Synthesis of high quality single-wall carbon
nanotubes by CCVD method |
156
|
| P2.48 |
Zaporotskova N.P., Zaporotskova I.V., Ermakova
T.A.
Investigation of carbon nanotube activity
to heavy organic molecules |
157
|
| P2.49 |
Zaramenskikh K.S., ZharikovE.V., Faikov
P.P., Kovalenko A.N., McRae E., Devaux X.,
Iskhakova L.D.
Ethanol pyrolytic synthesis of carbon nanotubes
using a novel Ni/(NiO+Y2O3) catalyst |
158
|
| P2.50 |
Zaytsev A.A., Simunin M.M., Egorkin V.I.,
Solovyeva N.A., Nikiforov D.N
Growth of vertically oriented nanotubes on
clusters, made by nanoimprint lithography
|
159
|
| P2.51 |
Zhukov A., Finkelstein G.
Influence of local Coulomb potential on transport
through carbon nanotubes |
160
|
| |
|
|
| |
POSTER SESSION II
|
|
| |
3. Nanodiamonds
|
|
| P3.01 |
Avramenko N.V., Kalachev A., Korobov M.V.,
Belyaeva L.A., Semenyuk P.I.
Comparative study of some commercial detonation
nanodiamonds |
162
|
| P3.02 |
Basharin A.Yu., Lysenko I.Yu., Turchaninov
M.A.
Carbon phase diagram and the liquid carbon
properties: the new results |
163
|
| P3.03 |
Basharin A.Yu.
Graphite remelting as a new method to obtain
metastable carbon phases |
164
|
| P3.04 |
Bogatyreva G., Marinich M.A., Ilnitskaya
G.
Effect of physical-chemical treatments on
the aggregative properties of nanodiamond
of detonation synthesis |
165
|
| P3.05 |
Chernov V.V., Vikharev A.L., Gorbachev
A.M., Kozlov A.V., Vul' ' A.Ya., Aleksenskii
A.E.
The nucleation and growth of nanocrystalline
diamond films in millimeter-wave CVD reactor
|
166
|
| P3.06 |
Chu Y.Q., Tong Y., Wang X.Z., Zhang T.L.,
Huang F.L.
Synthesis of nanodiamond reinforced dental
composite resins and their mechanical properties
|
167
|
| P3.07 |
Danilenko V.V.
About creation of technology of "pure" synthesis
of detonation nanodiamonds |
168
|
| P3.08 |
Dementjev A., Maslakov K.
Chemical state of carbon atoms on nanodiamond
surface: growth mechanism of detonation nanodiamond
|
169
|
| P3.09 |
Burkat G.K., Dolmatov V.Yu., Myllymaki
V.
Electrochemical silver-diamond coatings |
170
|
| P3.10 |
Filicheva Yu.A., Lvova N.A., Anan'ina O.Yu.
Quantum-chemical simulation of interaction
of hydrogen atoms with diamond nanoclasters
|
171
|
| P3.11 |
Goncharova O.A., Chekanova L.A., Iskhakov
R.S.
Synthesis, structure and magnetic properties
of composite powders UDD/Ni-P and UDD/Co-P
|
172
|
| P3.12 |
Grudinkin S.A., Feoktistov N.A., Aleksenskii
A.E., Vul' A.Ya., Golubev V.G.
Aerosol spraying of detonation nanodiamond
for seeding and growth of transparent B-doped
CVD nanodiamond films |
173
|
| P3.13 |
Ivanov M.G., Shenderova O., Ivanov D.M.,
Pavlyshko S.V., Petrov I., McGuire G.
Nanodiamond-based nanolubricant |
174
|
| P3.14 |
Kaleicheva J., Karaguiozova Z., Lyubchenko
E., Kandeva M., Stavrev S., Mishev V.
Investigation on the microstructure and properties
of composite nickel coatings with nanodiamond
|
175
|
| P3.15 |
Raina S., Kang W.P., Davidson J.L.,
Huang J.H.
Tailoring the electronic properties of CVD
nanocrystalline diamond films by in situ nitrogen
incorporation for selective electrochemical
detection of neurotransmitters |
176
|
| P3.16 |
Korobkova A.I., Shilova O.A., Frank-Kamenetskya
O.V.
Effect of detonation nanodiamond dopant on
phase composition and strength of Portland
cement materials |
177
|
| P3.17 |
Medvedev D., Petyev V., Potapkin B., Sapunov
D., Prikhodko K., Domantovsky A., Korobtsev
S.
Experimental study of electric discharge treatment
of nanodiamond particles in flow liquid |
178
|
| P3.18 |
Korolev K., Makarov I., Sustchev V., Malygin
A., Marchukov V.
Graphite diamond composites formed by a controlled
oxidation of detonation blend |
179
|
| P3.19 |
Koscheev A.P., Tereshenkov A.V., Petrovskaya
A.V, Chukov N.A., Sadovskaya N.V., Perov A.A.,
Khatipov S.A.
The effect of filler surface chemistry on
the triboIogy properties of nanodiamond/polytetrafluroethylene
composites |
180
|
| P3.20 |
Kulakova I.I., Tveritinova E.A., Zitnev
Yu.N., Lunin V.V.
Effect of detonation nanodiamond surface chemistry
on its catalytic properties |
181
|
| P3.21 |
Sorokin P.V., Chernozatonskii L.A., Avramov
P.V., Kvashnin A.G.
Electronic and elastic properties of diamond
films with nanometer thickness |
182
|
| P3.22 |
Lysenko I.Yu., Basharin A.Yu., Spitsyn
B.V.
Diamond and nanodiamond new obtaining method
in its metastable region: autoepitaxial growth
from liquid carbon |
183
|
| P3.23 |
Meylakhs A.P., Eidelman E.D.
Calculation of the electron effective mass
in a nanodiamond-metal composite |
184
|
| P3.24 |
Mordvinova L.E., Chiganova G.A.
Nanodiamond influence on a microstructure
of galvanic nickel coatings |
185
|
| P3.25 |
Okotrub A.V., Polyakov O.V., Asanov I.P.,
Bulusheva L.G.
Synthesis and electronic structure of surface
of CVD diamond films |
186
|
| P3.26 |
Kolonenko A.L., Osipova I.V., Vnukova
N.G., Tomashevich Ye.V., Chiganov A.S., Churilov
G.N.
Treatment of detonation diamonds by metalcontained
plasma of high frequency arc discharge and
their properties |
187
|
| P3.27 |
Popov V.A., Egorov A.V., Savilov S.V.,
Lunin V.V., Khodos I.I.
An investigation of nanodiamond and carbon
onion structures by UNR-TEM methods |
188
|
| P3.28 |
Popov V.A., Chernov B.B., Nugmanov A.M.,
Shchetinina G.P.
Use of mechanical alloying for production
of MMC with nanodiamond reinforcements |
189
|
| P3.29 |
Rozhkova N.N., Gorlenko L.Å., Yemelyanova
G.I., Osawa E., Lunin V.V.
Catalytic activity of nanodiamonds in redox
process |
190
|
| P3.30 |
Sedov V.S., Ralchenko V.G., Sizov A.I.,
Zvukova T.M., Khomich A.A., Konov V.I.
Nucleation of CVD diamond particles and films
on heat-treated polymers PHC and PNHC |
191
|
| P3.31 |
Vitiaz D.A., Senyut V.T., Markova L.V.
Investigation of nanostructured particles
obtained from sintered nanodiamonds |
192
|
| P3.32 |
Shakhov F.M., Kidalov S.V., AbyzovA.M.
High thermal conductivity diamond-copper composites
|
193
|
| P3.33 |
Shakhov F.M., Osipov V.Yu., Kidalov S.V.,
Takai K., Enoki T., Vul' A.Ya.
Magnetic studies of nanodiamond – copper composites
synthesized at high pressure and high temperature
|
194
|
| P3.34 |
Shalimova A.S., Gasanov Z.D., Novikova
Ê.O.
Self-organization of detonation nanodiamonds
after treatment by high-energy methods |
195
|
| P3.35 |
Shenderova O.A., Ivanov M.G., Deev L.E.,
Ivanov D.M.
Fluorinated nanodiamond and soot in tribological
applications |
196
|
| P3.36 |
Aleksenskii A.E., Shvidchenko A.V.
Problems of stability of disaggregated nanodiamond
hydrosols |
197
|
| P3.37 |
Sokolina G.A., Denisov S.A., Kiseleva
O.A., Spitsyn B.V.
Effect of water adsorption on electrical conductivity
and permittivity of diamond nanopowders |
198
|
| P3.38 |
Soltamov V.A., Soltamova A.A., Bhoodoo
C., Babunts R.A., Shakhov F.M., Kidalov S.V.,
Vul' A.Ya., Baranov P.G.
ODMR studies of fluorescent nitrogen-vacancy
defects fabricated by sintering of detonation
nanodiamonds |
199
|
| P3.39 |
Britun V.F., Kurdyumov A.V., Solonin
Yu.M. Yarosh V.V.
Polycrystalline diamond fibres prepared by
high temperature shock compression of the
multi-walled carbon nanotube |
200
|
| P3.40 |
Stepanenko E.V., Levashov E.A., Ralchenko
V.G., Patsera E.I.
Manufacturing of seeding suspensions based
on crushed nanodiamond for CVD diamond films
|
201
|
| P3.41 |
Tomchuk O.V., Avdeev M.V., Aksenov V.L.,
Bulavin L.A.
Cluster models in small-angle scattering analysis
of detonation nanodiamonds |
202
|
| P3.42 |
Volkov D.S., Avramenko N.V., Belyaeva L.A.,
Davydov V.A., Proskurnin M.A., Korobov M.V.
Formation, distraction and drying of the "secondary
structure" in detonation nanodiamonds |
203
|
| P3.43 |
Voropaev S., Galimov E.M.
Structural investigations of carbon nanostructures
produced by hydrodynamical cavitation technique
|
204
|
| P3.44 |
Yakovlev R.Yu., Badun G.A., Selezenev N.G.,
Yakusheva E.N., Leonidov N.B.
Development and investigation of drug delivery
system based on the detonation nanodiamonds
|
205
|
| P3.45 |
Yakovlev R.Yu., Alieva I.B., Leonidov N.B.,
Rakita D.R., Agafonov V.N., Uzbekov R.E.
Interaction dynamics of the nanodiamond with
living cells in culture |
206
|
| P3.46 |
Zhukov.N., Gareeva F.R.
Integrated investigation of electrical surface
properties of detonation nanodiamond agglomerates
in aqueous KCl solutions |
207
|
| P3.47 |
Zousman B., Levinson O.
Monodispersed nanodiamond powder btained by
laser synthesis |
208
|
| |
4. Methods for Characterization of Nanocarbons
|
|
| P4.01 |
Agafonov S.S., Borisova P.A, Glazkov V.P.,
Somenkov V.A.
Phase transition in amorphous fullerites Ñ70
|
209
|
| P4.02 |
Bekhterev A.N.
Vibration states of micro- and nanocarbon:
structural aspects |
210
|
| P4.03 |
Bagrov I.V., Belousova I.M., Grenishin
A.S., Kiselev V.M., Kislyakov I.M. , Sosnov
E.N.
Advanced model of the singlet oxygen generator
of gas flowing type on base of porous fullerene-containing
structures |
211
|
| P4.04 |
Belousova I.M., Kislyakov I.M., Murav'eva
T.D., Yelleswarapu C.S., Rao D.V.G.L.N.
Z-scan study of nonlinear properties of carbon
nanostructures |
212
|
| P4.05 |
Bogatyreva G., Ilnitskaya G.D., Marinich
M., Bazaliy G., Leshchenko O.
Assessment of chemical inhomogeneity of nanodispersed
diamond powders |
213
|
| P4.06 |
Chikina A.G., Fedorov A.V., Usachev D.U,
Adamchuk V.K.
Lattice constant reduction of the graphene/Ni(111)
due to Au intercalation |
214
|
| P4.07 |
Davydov S.N., Bondarenko V.B., Gabdullin
P.G., Gnuchev N.M.
Novel spectrometer for investigating nanostructure
field emission: adjusting, test spectra and
first results |
215
|
| P4.08 |
Dolmatov V.Yu., Yurjev G.S., Myllymaki
V., Vehanen A.
Why are detonation nanodiamonds small |
216
|
| P4.09 |
Gorodetskiy D.V., Kurenya A.G., Kudashov
A.G., Okotrub A.V.
Optimization of CVD synthesis parameters for
growth of long carbon nanotubes array |
217
|
| P4.10 |
Klyushin A.Yu., Vinogradov A.S., Generalov
A.V., Simonov K.A.
Chemical bonding effect on the resonance F
KVV Auger emission from polytetrafluoroethylene
|
218
|
| P4.11 |
Koissin V., Warnet L., Akkerman R.
Estimation of the stiffness parameters of
a nanofibre forest |
219
|
| P4.12 |
Komarova N.S., Krivenko A.G., Naumkin A.V.
Electrochemical functionalization of carbon
single-walled nanotubes |
220
|
| P4.13 |
Levina V.V., Novakova A.A., Kiseleva T.Yu.,
Ilinykh I.A., Kuznetsov D.V.,
Chuprunov K.O., Kolesnikov E.A. Different
carbon nanostructures obtained on Fe/SiO2
and Fe/Al2O3 catalySt
with various phase composition |
221
|
| P4.14 |
Leshchev D.V., Leshcheva I.A.
Retrospective IWFAC's scope study using mind
maps approach |
222
|
| P4.15 |
Meletov K.P.
Intertubular interaction in bundled single-walled
carbon nanotubes studied by Raman scattering
at high pressure and temperature |
223
|
| P4.16 |
Meletov K.P., Konarev D.V.
Raman study of the neutral state donor-acceptor
complexes Ni·(nPr)·(C60)2
and Cu·(nPr)·(C60)2
at high pressure |
224
|
| P4.17 |
Nesterenko P., Quirino J., Haddad P. ,
Muller M., Wallace G, Li D.
Characterisation of graphene oxide and chemically
converted graphene by capillary zone electrophoresis
|
225
|
| P4.18 |
Nesterenko P.
Adsorption properties and chromatographic
performance of microdispersed sintered detonation
nanodiamonds |
226
|
| P4.19 |
Osipov V.Yu., Shestakov M.S., Baranov A.V.,
Takai K., Enoki T., Kaburagi Y. , Endo M.,
Vul' A.Ya.
UV optical absorption studies of surface plasmon
resonance in water suspension of multi-shell
nanographites |
227
|
| P4.20 |
Osipov V.Yu., Makarova T.L.,, Baranov A.V.,
Ermakov V.A., Shames A.I. , Takai K., Enoki
T., Kaburagi Y., Hayashi T., Endo M., Vul' A.Ya.
Raman characterization and X-band EPR studies
of multishell nanographites with and without
oxygen-sensitive edge-localized spins |
228
|
| P4.21 |
Panich A.M.
Difference and similarity in properties of
bulk and nanomaterials as seen by NMR |
229
|
| P4.22 |
Panova A.M., Bogatyreva G.P., Zapyuk G.G.,
Katrusha A.N.
Applicatopn of gas chromatography for studies
of oxidation kinetics of nanocarbon materials
|
230
|
| P4.23 |
Sivkov V.N., Petrova O.V., Nekipelov
S.V., Obiedkov A.M, Kaverin B.S, Kirillov
A.I, Domrachev G.A., Egorov V. A., Vyalikh
D.V., Molodtsov S.L.
NEXAFS studies of the composite materials
MWCNT's-pyrolitic metals by synchrotron radiation
|
231
|
| P4.24 |
Skryleva E.A., Shulga N.Yu.
XPS characterization onion-like carbon from
nanodiamonds and carbon structure from onion-like
carbon after high pressure high temperature
treatment |
232
|
| P4.25 |
Stacey D., Ponkratov K., Batten T.
Probing the nano world – an overview of Raman
spectroscopy and its key role in ACN research
|
233
|
| P4.26 |
Tikhomirova G.V., Volkova Ya.Yu., Babushkin
A.N.
Conductivity of carbon materials at pressures
20-50 Gpa |
234
|
| P4.27 |
Zhilinskaya E.A., Rakhmanina A.V., Davydov
V. A., Agafonov V.
EPR study of depolymerization processes of
C60 polymerized phases |
235
|
| P4.28 |
Dorozhkin P., Shelaev A., Shchokin A.,
Kuznetsov E., Bykov V.
AFM-Raman and tip enhanced Raman studies of
carbon nanostructures |
236
|
| |
|
|
| |
Poster Session 3 |
|
| |
5. Fullerenes
|
|
| P5.01 |
Abramova N.V., Babievski K.K., Peregudova
S.M., Manuylov S.A., Sokolov V.I.
Optically active diastereomeric N-methyl-2(-)myrtenylpyrrolidinofullerenes
and their methiodides: synthesis and CD spectra
|
238
|
| P5.02 |
Akhmetov A.R., Tuktarov À.R., Yarullin
I.R., Dzhemilev U.M.
The firSt example of the interaction between
[60]fullerene and hydrazoic acid |
239
|
| P5.03 |
Aksenova V.V., Nikonova R.M., Lad'yanov
V.I.
Behavior of the solvate molecules in solid
solvate of C60 and C70 fullerenes under heating
|
240
|
| P5.04 |
Semenov K., Alekseyev N.I., Charykov N.,
Letenko D., Nikitin V.A.,Namazbaev V.I., Keskinov
V., Puharenko Y.V.
Anti-corrosion properties of metallic surfaces
modified with fullerenol-d |
241
|
| P5.05 |
Semenov K., Alekseyev N.I., Charykov
N., Letenko D., Nikitin V.A., Namazbaev V.I.,
Keskinov V., Puharenko Y.V.
Increase in stability of paints modified with
fullerenol-d |
242
|
| P5.06 |
Semenov K., Alekseyev N.I., Charykov
N., Keskinov V.
Cheap method for synthesis of highly water
soluble fullerene derivatives – fullerenols-d
|
243
|
| P5.07 |
SherstnevV.V., Alekseyev N.I., Charikov
N.A., Semenov K.N., Keskinov V.À.,
Krohina O.A.Fullerene for semi-conducting
photo- and light diodes (1.5–5.0 μm)
|
244
|
| P5.08 |
Amsharov K.Yu., Jansen M.
Direct synthesis of carbon nanostructures
|
245
|
| P5.09 |
Apenova M.G., Rybalchenko A.V., Borkovskaya
E.V., Belov N.M., Dorozhkin E.I., Ignat'eva
D.V., Goryunkov A.A., Ioffe I.N.
Synthesis and characterization of the novel
isomer 1,4,10,19,25,41,60,69-C70(CF3)8 |
246
|
| P5.10 |
Apenova M.G., Ovchinnikova N.S., Goryunkov
A.A., Borkovskaya E.V., Belov N.M., Troyanov
S.I., Sidorov L.N.
The functionalization of C2-p7-C70(CF3)8 by
the Bingel reaction |
247
|
| P5.11 |
Bashkatova E., Shilovski I., Bashkatova
Yu., Khaitov M., Andreev S.
Adducts of [60]fullerene with basic amino
acids as delivery vectors |
248
|
| P5.12 |
Brotsman V.A., Ioutsi V.À., Bogdanov V.P.,
Rybalchenko A.V., Ovchinnikova N.S., Goryunkov
A.A., Sidorov L.N.
Functionalization of fluorine-containing fullerene
derivatives |
249
|
| P5.13 |
Galimov D.I., Gazeyeva D.R., Sabirov D.
Sh., Bulgakov R.G.
Reactivity of Ñ60 fullerene towards peroxy
radicals generated in initiated oxidation
of hydrocarbons |
250
|
| P5.14 |
Kolesnikova A., Glukhova O., Kirillova
I., Saliy I., Slepchenkov M.
Phase transitions in two-layer fullerenes
with the non-central effect |
251
|
| P5.15 |
Grushko Yu.S., Kozlov V.S., Artamonova
T.O., Khodorkovsky M.A.
Concentrating of higher metallofullerene and
empty fullerene fraction with carbon cages
of more than 100 carbon atoms |
252
|
| P5.16 |
Ioutsi V.A., Negrebetsky V.V., Yurovskaya
M.A., Sidorov L.N.
Amino acid silyl esters as an efficient precursor
in the 1,3-dipolar cycloaddition of azomethine
ylides to fullerene C60 |
253
|
| P5.17 |
Ito S., Fujimoto T., Ito M., Yamana S.
Efficacy of fullerene capsule with amphipathic
antioxidants vitamin |
254
|
| P5.18 |
Maslov M.M., Katin K.P.
Thermal stability of the endohedral complex
of [60]fullerene with tetrahedrane, C4H4@C60
|
255
|
| P5.19 |
Katz E.A.
The Euler theorem for molecular structure
studies:cases of fullerene-like nanoparticles
of carbon and inorganic compounds |
256
|
| P5.20 |
Beneoux C., Itzhak C., Avrahami R., Zussman
E., Frey J., Katz E.A., Shames A.I.,
Yerushalmi-Rozen R.
Fibers of functional nanocomposites of poly(3-hexythiophene)
containing fullerene derivatives and carbon
nanotubes |
257
|
| P5.21 |
Kazachenko V., Razanau I.
Nanocomposite layers on the basis of polymeric
forms of C60 |
258
|
| P5.22 |
Khakimova E.U., Konarev D.V., Zorina L.V.,
Khasanov S.S., Lyubovskaya R.N.
Ionic complexes containing fullerene anions
and negatively charged phthalocyanine structures
|
259
|
| P5.23 |
Khamatgalimov A.R., Kovalenko V.I.
Electronic structure and stability of C76
fullerene IPR-isomers |
260
|
| P5.24 |
Khokhriakov N.V., Kodolov V.I.
Interaction between hydroxyfullerene and water
|
261
|
| P5.25 |
Klimova E., Klimova T., Moggio I., Arias-Marin
E., Martinez-Garcia M.
Optical properties of double pyrene-anthrylvinylene-fullerene-C60
or pyrene-OPV- fullerene C60 triads |
262
|
| P5.26 |
Krisilov A.V., Zon B.A., Kotova A.L.
Endofullerenes of lanthanides Ln@C60: ab initio
geometric and electronic structure calculation
|
263
|
| P5.27 |
Kvyatkovskii O.E., Zakharova I.B.
Ab initio calculations of nonlinear polarizabilities
of fullerene-porphyrin complexes |
264
|
| P5.28 |
Kvyatkovskii O.E., Zakharova I.B., Diba
D.D., Makarova T.L.
Interaction of oxygen with fullerenes: oxidation
versus singlet oxygen production |
265
|
| P5.29 |
Kyrey T.O., Kyzyma O.A., Avdeev M.V., Korobov
M.V., Aksenov V.L., Bulavin L.A.
Absorption characteristics of fullerene C60
in N-methyl-2-pirrolidone/toluene mixture
|
266
|
| P5.30 |
Lanskikh M.A., Chang K.-C., Belova Yu.M.,
Tamm N.B., Kemnitz E., Troyanov S.I.
New trifluoromethyl derivatives of C76 and
C82 |
267
|
| P5.31 |
Lebedev V.T., Torok Gy., Vinogradova L.V.
Star-shaped homo- and hybrid fullerene C60-containing
polymers and their supramolecular organization
in aromatic solvents |
268
|
| P5.32 |
Lebedev V.T., Torok Gy., Ratnikova O.V.,Vinogradova
L.V.
Specific internal structure of star-shaped
polystyrenes with fullerene C60 branching
center |
269
|
| P5.33 |
Lopatin D.V., Chirkin E.S., Dmitrievskii
A.A., Zheltov M.A., Samodurov A.A., Stolyarov
R.A.
Electronic and defect structures of fullerene
C60 molecular complex |
270
|
| P5.34 |
Lopatin M.A., Ketkov S.Yu., Markin G.V.,
Kuropatov V.A., Rychagova E.A., Kalakutskaya
L.V., Domrachev G.A.
DFT and ESR spectroscopic studies of new organoelement
fullerene derivatives |
271
|
| P5.35 |
Lopatin M.A., Klapshina L.G., Grigoryev
I.S., Semenov V.V., Lermontova S.A., Domrachev
G.A.
The quenching of the Yb (III) porphyrazine
complexes and heterocyclic ligands by C60
in solutions |
272
|
| P5.36 |
Luzan S.M., Tsybin Y.O., Talyzin A.V.
In situ observation of C60 hydrogenation reaction
using gravimetric method |
273
|
| P5.37 |
Mazaleva O.N., Ioffe I.N.
Detailed computational study of the chlorination-assisted
skeletal rearrangement of D2-19150C76 into
C2-18917C76Cl24 |
274
|
| P5.38 |
Merzlyakova M.A., Nikonova R.M., Lad'yanov
V.I., Aksyonova V.V.
Thermo-destruction of the fullerenes |
275
|
| P5.39 |
Mikoushkin V.M., Shnitov V.V., Nashchekin
A.V., Pavlov S.I., Nesterov S.I.,
Konnikov S.G.Formation of carbon microstructures
by dry electron-beam lithography |
276
|
| P5.40 |
Nasonova K.V., Melenevskaya E.Yu., Shamanin
V.V., Podosenova N.G.
Sorbents based on silica containing fullerenols
for use in plasmapheresis |
277
|
| P5.41 |
Lebedev V.T., Orlova D.N., Nasonova
K.V., Melenevskaja E.Yu., Shamanin V.V.,
Vinogradova L.V.
Supramolecular formations of fullerene C60-containing
poly(ethylene oxide) in deuterobenzene |
278
|
| P5.42 |
Nikolaev D.N., Davidovich P.B., Piotrovskiy
L.B.
Preparative synthesis of (1,2-methanofullerene
C60)-61-carboxylic acid |
279
|
| P5.43 |
Okuneva A.D., Bobyleva L.G., Bobylev A.G.,
Podlubnaya Z.A.
Effects of C60 derivatives on in vitro amyloidogenesis
of Aβ (1-42) peptide of the brain |
280
|
| P5.44 |
Oprunenko Yu.F., Gloriozov I.P., Vasil'kov
A.Yu.
A DFT study of fullerene C60 transition metal
complexes structure and dynamic |
281
|
| P5.45 |
Pavlenko O., Dmytrenko O., Kulish M., Brusentsov
V., Rybiy V., Korniyenko M.,
Strilchuk V., Romaniuk B.M., Shpilevsky E.
Irradiation and doping induced changes in
properties of C60 fullerite films |
282
|
| P5.46 |
Pavlychev A.A., Brykalova X.O.
Inner-shell electronics of caged molecules:
small molecules in carbon cages |
283
|
| P5.47 |
Petrenko E.O., Makarets N.V., Mikoushkin
V.M.
Simulation of faSt electron transport in thin
metal and fullerite films |
284
|
| P5.48 |
Piotrovskiy L.B., Dumpis M.A., Litasova
E.V., Rodionova O.M., Safonova A.F., Sapronov
N.S., Selina E.N.
In vivo toxicology of fullerene C60 in low
aggregation state |
285
|
| P5.49 |
Piotrovskiy L.B., Okunevich I.V., Dumpis
M.A., Litasova E.V., Sapronov N.S.
Fullerene C60 in vivo: influence on the basic
types of metabolism |
286
|
| P5.50 |
Polozkov R.G., Verkhovtsev A.V., Ivanov
V.K., Korol A.V., Solov'yov A.V.
Oscillation phenomenon in photoionization
cross section of Ar@C60 |
287
|
| P5.51 |
Pykhova A.D., Gracheva Yu.A., Ovchinnikova
N.S., Milaeva E.R., Yurovskaya M.A.
Antioxidative activity of some fullerene C60
derivatives |
288
|
| P5.52 |
Li H., Zhu G., Jiang Y., Qi L.,
Xu Z.
Formation of micrometer-scale fullerene decagonal
prisms crystal: from mesocrystal to single
crystal |
289
|
| P5.53 |
Razanau I., Kazachenko V., Zhavnerko G.
Thin C60 polymer films formed with C60 ions
assistance, their optical, electric and magnetic
properties |
290
|
| P5.54 |
Rybalchenko A., Nikitin O.M., Goryunkov
A.A., Heinze J. Magdesieva T.V.
Electrochemical studies of C60(CF2)H2 |
291
|
| P5.55 |
Belousova I.M., Ryzhov A.A.
Containing one-dimensional photonic band gap
crystals |
292
|
| P5.56 |
Sabirov D.Sh., Garipova R.R., Bulgakov
R.G.
Generalized theoretical approach to the estimation
of fullerenes reactivity in the reactions
of addition based on curvature indices |
293
|
| P5.57 |
Sabirov D.Sh., Garipova R.R., Bulgakov
R.G.
Polarizability of fullerene derivatives |
294
|
| P5.58 |
Salcedo R.
Thermochemical characterization of the seven
C80 isomers by means homodemotic reaction
|
295
|
| P5.59 |
Samoylova N.A., Semivrazhskaya O.A., Belov
N.M., Markov V.Yu., Ovchinnikova N.S., Goryunkov
A.A.
CF2-derivatives of C70: synthesis and structure
|
296
|
| P5.60 |
Sedov V.P., Kukorenko V.V., Kolesnick S.V.,
Shilin V.A., Grushko Yu.S.
Concentration and separation of high fullerenes
|
297
|
| P5.61 |
Sheka E.F., Shaymardanova L.Kh. Reaction
barriers and deformation energies
of C60-based composites |
298
|
| P5.62 |
Shiliaeva L.A., Korobov M.V., Avdeev M.V.,
Senyavin V.M., Semenyuk P.I.
Solubility behaviour of C60 in N-methylpirrolidon
|
299
|
| P5.63 |
Grushko Yu.S., Lebedev V.T., Shilin
V.A., Sedov V.P., Kozlov V.S., Kolesnik
S.G.
Anomalous survival of endometallofullerenes
under irradiation in reactor |
300
|
| P5.64 |
Shnitov V.V., Mikoushkin V.M.
Analysis of electron-induced fullerite C60
modification in terms of destruction cross-section
|
301
|
| P5.65 |
Spoiala D., Evtodiev I., Prilepov V. Comparative
characteristics of electrical and photoelectrical
properties of Si/fullerite C60 and Si/nanocomposite
fullerite
C60:Me (Me=Cu, Al, Sn and Te) heterostructures
|
302
|
| P5.66 |
Madjuga A.M., Gal'pern E.G., Stankevich
I.V.
Endohedral derivatives of fullerenes and their
formation |
303
|
| P5.67 |
Suslova I.B., Mikoushkin V.M.
Diffusion model of low-energy secondary electrons
in fullerite and other solids |
304
|
| P5.68 |
Tamm N.B., Skokan E.V., Karnatsevich V.L.,
Polyakova M.V., Tarasov V.P., Chelovskaya
N.V., Kirillov A.I., Arkhangelsky I.V.
On solvent impurity in commercial fullirites
|
305
|
| P5.69 |
Tarakina N.V., Verberck B.
Tubular fullerenes inside carbon nanotubes:
optimal molecular orientation versus tube
radius |
306
|
| P5.70 |
Tuktarov À.R., Khuzina L.L., Dzhemilev
U.M.
Effective synthesis of methano- and pyrazolinofullerenes
|
307
|
| P5.71 |
Tuktarov À.R., Korolev V.V., Khuzin À.À.,
Dzhemilev U.M.
Catalytic synthesis of heteroatom-containing
homo- and methanofullerenes |
308
|
| P5.72 |
Tumareva T.A., Sominski G.G., Svetlov I.A.,
Panteleev I.S.
Ion tieatment influence on operation of field
emitters with nanostructured fullerene coatings
|
309
|
| P5.73 |
Uvarov M.N., Kulik L.V., Pichugina T.I.,
Dzuba S.A.
Fullerene C70 triplet zero-field splitting
parameters revisited from light-induced EPR
spectra at thermal equilibrium |
310
|
| P5.74 |
Verkhovtsev A.V., Polozkov R.G., Ivanov
V.K., Korol A.V., Solov'yov A.V.
Self-consistent Hartree-Fock approach to electronic
structure of endohedral fullerenes |
311
|
| P5.75 |
Voznyakovsky A.P., Kudoyarova V.Kh., Kudoyarov
M.F., Lebedev V.T.
Self-organization processes in polymeric nanocomposites
with C60 fullerenes |
312
|
| P5.76 |
Li B., Zhu G., Qi L., Xu Z.
A fullerene-based catalySt for molecular hydrogen
activation with comparable catalytic hydrogenation
capability to noble metal catalyst |
313
|
| P5.77 |
Yumagulova R.Kh., Medvedeva N.A., Kolesov
S.V.
Fullerenation of diallyl monomer |
314
|
| P5.78 |
Ziminov V.M., Zakharova I.B., Aleshin A.N.,
Makarova T.L.
Comparative study of several fullerene based
bulk heterojunctions |
315
|
| P5.79 |
Zubov V.I. Size effects in fullerites nanoparticles
|
316
|
| P5.80 |
Amsharov K.Yu
Direct Synthesis of Carbon
Nanostructures |
352 |
| P5.81 |
Lavrentiev V.
Structural Consequences of
Duplicitous Chemical Relation of Cobalt and
Fullerene in Mixture |
# |
| |
|
|
| |
6. Nanocarbon
|
|
| P6.01 |
Abrukov S.V., Kochakov V.D., Telegin G.G.
Nano films of linear-chain carbon with embedded
metal and nonmetal atoms: characterization
and data mining modelling |
317
|
| P6.02 |
Davydov V., Rakhmanina A., Autret C., Limelette
P., Agafonov V.
Carbon-encapsulated iron carbide nanoparticles
in the thermal conversions of ferrocene at
high pressures |
318
|
| P6.03 |
Arkhipov A.V., Bondarenko V.B., Gabdullin
P.G.
Role of nano-sized objects in field-induced
electron emission facilitation |
319
|
| P6.04 |
Arkhipov A.V., Gabdullin P.G., Gordeev
S.K., Korchagina S.B., Mishin M.V.
Field-induced electron emission from graphitic
nano-island films at silicon substrates |
320
|
| P6.05 |
Bekhterev A.N.
Optical characteristics of porous nanocarbon
materials in effective media model: Bruggeman
aprocsimation |
321
|
| P6.06 |
Gil'man A.B., Drachev A.I., Belobrzeckaja-Kosta
L. N.,Del Borghi M., Fumagalli M.S., Costa
Nicola B.
Applied polimerization of PEDOT in a direct
current discharge was ineffective: it's showed
undesirable dielectric properties of material
|
322
|
| P6.07 |
Chernogorova O.P., Drozdova E.I., Ovchinnikova
I.N., Blinov V.M.
Mechanical properties and fracture of superelastic
hard carbon particles produced from fullerenes
under pressure |
323
|
| P6.08 |
Churilov G.N., Osipova I.V., Maslennikov
A.N., Gluchenko G.A.,, Drokin N.A.
Composites based on superhigh-molecular poly(ethylene)
and carbon nanostructures |
324
|
| P6.09 |
Davydov V.A., Rakhmanina A.V., Agafonov
V.N. , Khabashesku V.N.
Pressure-temperature-induced transformations
of polyhedral carbon nanoparticles in hydrogen-containing
system |
325
|
| P6.10 |
Ginzburg B.M., Òuichiev Sh., Osawa Å.,
Rashidov D., Tabarov S., Mukhamad À.
Nanocarbon materials and polymers |
326
|
| P6.11 |
Golubev O.L.
Tungsten carbide emitting nanoprotrusions
as effective field emission point sources
of the electrons and ions |
327
|
| P6.12 |
Ibragimov A.A., Lupehin S.M.
Field emission of carbon cathodes with hard
limited nanostructured emitting surface |
328
|
| P6.13 |
Karpov D.I., Pruuel E.R., Satonkina N.P.
Formation of carbon clusters in detonation
products of high explosives |
329
|
| P6.14 |
Koprinarov N.S., Konstantinova M.
Carbon particles synthesized by pyrolysis
in closed container |
330
|
| P6.15 |
Koprinarov N., Konstantinova M.A.
Carbon structures produced as a result of
periodically repeated spark discharge in liquid
hydrocarbons |
331
|
| P6.16 |
Kurkin T., Ozerin A., Kechek'yan A., Gritsenko
O., Sustchev V., Dolmatov V.
Highly oriented poly(vinyl alcohol) fibers
modified with nanodiamonds: from effective
structural modification to high tensile strength
and modulus |
332
|
| P6.17 |
Lysenko I.Yu., Basharin A.Yu., Turchaninov
M.A., Dozhdokov V.S.
Homogeneous nucleation in liquid carbon obtained
by laser pulse melting of graphite |
333
|
| P6.18 |
Manika I., Maniks J., Zabels R., Gabrusenoks
J., Krause M., Tomut M., Schwartz K.
Nanoindentation and Raman spectroscopy study
of graphite irradiated with swift 238U ions
|
334
|
| P6.19 |
Puziy A.M., Poddubnaya O.I., Reinish C.A.,
Mironiuk T.I., Tsyba M.M., Mikhalovsky
S.V., Mikhalovska L.I.
Nanostructured carbons obtained by template
method for protein adsorption |
335
|
| P6.20 |
Mikhalovsky S.V., Sandeman S.R., Howell
C.A., Tennison S.R., Nikolaev V.G.
Nanostructured carbon adsorbents for medical
protection againSt chemical-biological-radiological-nuclear
(CBRN) hazards |
336
|
| P6.21 |
Nikonova R.M., Pozdeeva N.S., Lad'yanov
V.I.
Influence of nanostructural carbon forms on
deformation behaviour of copper at mechanical
activation |
337
|
| P6.22 |
Arakelyan S.M., Antipov A.A., Kutrovskaya
S.V., Eucherik A.O., Nogtev D.S., Osipov
A.V., Prokoshev V.G.
Synthesis of metal-carbon nanostructured materials
by controlled laser deposition |
338
|
| P6.23 |
Naletov A.M. Nozhkina A.V.
Lonsdaleite in nanodiamonds |
339
|
| P6.24 |
Arakelyan S.M., Antipov A.A., Kutrovskaya
S.V., Êucherik A.O., Nogtev D.S., Osipov
A.V., Prokoshev V.G.
Controlled laser synthesis of carbon nanostructured
at laser action |
340
|
| P6.25 |
Rud A.D., Ivaschuk L.I., Kuskova N.I.,
Tsolin P.L., Kiryan I.M., Zelinskaya G.M.,
Biliy N.M. Structure of amorphous carbon produced
by high-voltage electric discharge technology
in organic liquids |
341
|
| P6.26 |
Shornikova A.L., Sheshin E.P., Gordeev
S.K.
Comparative analysis of field emission properties
of SiC powder with different synthesis parameters
|
342
|
| P6.27 |
Smirnov B.I., Orlova T.S., Parfeneva L.S.,
Popov V.V., Smirnov I.A., Jezowski A., Martinez-Fernandez
J.
Structural and physical properties of wood-derived
biocarbons |
343
|
| P6.28 |
Orlanducci S., Guglielmotti V., Sordi D.,
Tamburri E., Terranova M.L., Passeri
D.,
Rossi M. Self-assembling of graphitic nanoplatelets
|
344
|
| P6.29 |
Titorov D.B. Spatial atomic and electronic
structures of graphene, diamond, graphite
and fullerene |
345
|
| P6.30 |
Urbanovich V.S., Kuis D.V., Okatova G.P.,
Svidunovich N.A., Oichenko V.M.
Superhard composite material based on nanodispersed
carbon |
346
|
| P6.31 |
Voznyakovskii A.P., Pozdnyakov A.O., Popov
E.O., Pozdnyakov O.F.
Nanocarbons as physical modifier of polymers
– dispersity or structure |
347
|
| P6.32 |
Gushchin O., Yafarov R., Baklanov M., Ignatov
P., Zaytsev N., Yanovich S., Orlov
S. Khomyakov, I.
Nano-diamond based materials fabrication with
low pressure non-equilibrium microwave gas
discharge and its field emission properties
|
348
|
| P6.33 |
Zagaynova V., Makarova T.,, Mombru A.,
Pardo H., Faccio R.
The influence of boron doping on magnetic
properties of oxygen-eroded graphite |
349
|
| P6.34 |
Zaporotskova I.V., Davletova O.A.,
Polikarpov D.I., Zaporotskov P.A.
Structure and characteristics of pyrolyzed
polyacrylonitrile with vacancies |
350
|
| P6.35 |
Dikio E.D., Shooto D.N.
Morphological characterization of soot from
the atmospheric combustion of diesel, kerosene
and candle wax |
351
|
| |
|
| |
Conference/School of Young Scientists
|
|
| P7.01 |
Cherniyenko A., Bochechka A.
Definition of structural elements of diamond
powders and polycrystals sintered from them
|
354
|
| P7.02 |
Kanygin M.A., Kurenya A.G., Gusel`nikov
A.V., Okotrub A.V.
Application of angle-resolved X-ray spectroscopy
for characterisation of oriented CNT films
|
355
|
| P7.03 |
Kirilenko D.A., Dideykin A.T., Van Tendeloo
G.
Measurement of ripples spectrum in suspended
grapheme |
356
|
| P7.04 |
Koniakhin S.V., EidelmanE.D.
Full 2D calculation of graphene Raman amplitude
|
357
|
| P7.05 |
Korobkova A.I., Shilova O.A., Frank-Kamenetskya
O.V.
Interpretation of SEM images of Portland cement
materials doped nanodiamonds |
358
|
| P7.06 |
Krylov D.S., Kompan M.E.
Raman scattering in porous carbon materials
|
359
|
| P7.07 |
Kurkin T., Ozerin A., Kechek'yan A., Gritsenko
O., Sustchev V., Dolmatov V.
Small angle X-Ray scattering as a method to
determine the shape and size distribution
of nanodiamond particles. Comparison with
dynamic light scattering |
360
|
| P7.08 |
Kuzmichev A.V.
Formation of grapheme and graphite on the
surface of rhodium |
361
|
| P7.09 |
Nasonova K.V., Melenevskaya E.Yu., Shamanin
V.V.
Use of TGA for analysis of fullerenols |
362
|
| P7.10 |
Ovchinnikova I.N.
High-resolution Raman microscopic study of
C60 fullerite transformation upon HPHT treatment
|
363
|
| P7.11 |
Petrova N.I.
Research on size stability of commercial nanodiamond
suspensions under the influence of external
factors |
364
|
| P7.12 |
Petrova O.V., Nekipelov S.V., Sivkov V.N.,
Vyalikh D.V., Molodtsov S.L.
X-ray transitions oscillator strength measures
in the NEXAFS C1s –spectrum range of fullerene
by synchrotron radiation |
365
|
| P7.13 |
Popova A.A., Shikin A.M., Rybkin A.G.
Angle resolved photoelectron spectroscopy
as the method for investigation of electronic
structure of grapheme |
366
|
| P7.14 |
Razanau I.
Diagnostics of the structure of thin films
of polymerized C60 formed via electron-beam
dispersion method |
367
|
| P7.15 |
Shavlovskiy N.V., Smirnov A.N., Lebedev
S.P., Lebedev A.A.
Raman studies of epitaxial multi-graphene
films grown on a 6H-SiC substrates |
368
|
| P7.16 |
Shestakov M.S., Osipov V.Yu.
Infrared absorption studies of surface functional
groups of chemically modified nanodiamonds
|
369
|
| P7.17 |
Shishov M.A., Sapurina I.Yu.
Diagnostics of nitrogen-doped carbon prepared
by polyaniline pyrolysis |
370
|
| P7.18 |
Soltamova A.A., Soltamov V.A., Bhoodoo
C., Kramuschenko D.D., Shakhov F.M.
EPR and optical diagnostics of nanodiamonds
|
371
|
| P7.19 |
Gavrilova V.C., Janchuk I.B., Svirid
A.A., Efanov A.V.
Determination of the diamond content in the
detonation products of explosive |
372
|
| P7.20 |
Tomchuk O.V., Avdeev M.V., Aksenov V.L.,
Bulavin L.A., Garamus V.M.
Analysis of two-level organization of detonation
nanodiamond clusters by SANS |
373
|
| P7.21 |
Uvarov M.N., Kulik L.V., Pichugina T.I.,
Dzuba S.A.
Investigation of triplet fullerene C70 lineshape
EPR under continuous light illumination: zero
field splitting parameters distribution |
374
|
| P7.22 |
Vilkov O.Yu., Usachev D.Yu., Fyodorov A.V.,
Shikin A.M., Vladimirov G.G.
Intercalation of Cu underneath a graphene
layer on Ni(111) and Co(0001) substrates studied
with a synchrotron radiation |
375
|
| P7.23 |
Yakovlev R.Ju.
The problem of nanodiamond visualization in
biopharmaceutical research |
376
|
| P7.24 |
Zagaynova V., Hacke C., Chowdhury T., Makarova
T.
Transient charging phenomena in graphite |
377
|
| P7.25 |
Sedlovets D.M., Red'kin A.N.
Electrical conductivity and optical transparency
measurements of thin carbon films |
378
|
| |
| |
| |
| |
