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NT05: Sixth International Conference on
the Science and Application of Nanotubes
Göteborg University, Chalmers University
of Technology, and University College of Borås
(Gothenburg, Sweden)
June 26 - July 1, 2005
Accepted Abstracts (chronological order)
(Click HERE
for listing by category)
(Please contact Dr. Feng Ding at
fengding@fy.chalmers.se
in case of any problems with your submitted abstracts)
LOG
NUMBER
|
TITLE
|
GROUP |
|
Keynote speakers |
|
K1 |
Mass Production, Applications and Structural Controllability of
Carbon Nanotubes by Catalytic CVD (CCVD) Method
Morinobu Endo |
|
|
K2 |
Organic Functionalization of Carbon Nanotubes: Synthesis and
Applications
Maurizio Prato |
|
|
K3 |
Solving Nanotube Puzzles on a Supercomputer
David Tomanek |
|
|
K4 |
Growth and structures of Carbon Nanotubes
Sumio Iijima |
|
|
|
|
|
|
Invited Talks |
|
I1 |
Large-scale synthesis of
DWCNTs and their high field emission properties
S. H. Lee, S. I. Jung, T. J. Lee, S.
K. Choi, C. J. Park, C. J. Lee |
|
|
I2 |
Structure and vibrations of the same individual single-walled carbon
nanotube
J.-L. Sauvajol |
|
|
I3 |
Single-walled Carbon Nanotubes Transporters: Generality, Mechanism,
Functionality and Exploitation of Intrinsic Properties
Nadine Wong Shi Kam and Hongjie Dai |
|
|
I4 |
Optical Detection of the Aharonov-Bohm Phase in Carbon Nanotubes in
Ultrahigh Magnetic Fields
Junichiro Kono |
|
|
I5 |
Application of carbon nanotubes to the field emission display
Yongwan Jin and Jongmin Kim |
|
|
I6 |
The Nano Carbon ; Potential and Practical applications with business
models
Susumu KATAGIRI |
|
|
I7 |
Optical and Transport Properties of Carbon Nanotubes
Vasili Perebeinos, Jerry Tersoff
and Phaedon Avouris |
|
|
I8 |
Materials and device physics aspects of semiconductor nanowires
Lars Samuelson |
|
|
I9 |
Field Emission Display: a good application for carbon nano tubes
Jean Dijon |
|
|
I10 |
Geometry and the Electronic and Magnetic Poperties of Curved Carbons
Humberto Terrones |
|
|
I11 |
A Strategy to Select Metallic or Semiconducting Carbon Nanotubes from
Their Mixtures
Young Hee Lee |
|
|
I12 |
Electrical generation and absorption of phonons in carbon nanotubes
using STM
Brian J LeRoy |
|
|
I13 |
Excitonic Effects and Optical Response of Nanotubes
Steven G. Louie |
|
|
I14 |
New Approaches to Optical Characterization of Single-Walled Carbon
Nanotubes
Tony F. Heinz |
|
|
|
|
|
|
|
|
|
|
P1
|
Long Amorphous Carbon Nanotube
Ropes Synthesized
by An Arc
Discharge at Controlled Temperature
T.K. Zhao , Y.N. Liu , J.W. Zhu
|
II |
|
P2 |
A Novel Coral-like
Carbon Nanotubes
T.K. Zhao , Y.N. Liu , J.W. Zhu
|
III |
|
P4 |
Experimental study of
mechanism of carbon nanotube formation in the arc discharge
Vladislav A.
Ryzhkov
|
II |
|
P5 |
THEORETICAL AND
EXPERIMENTAL STUDIES OF CARBON NANOTUBES: A REVIEW
Katya M.
Simeonova, Ganka M. Milanova |
XXI |
|
P6 |
COMPUTER
MODELING OF DIFFERENTIAL CONDUCTANCE OF SYMMETRY CONNECTED
“ARMCHAIR-ZIGZAG” HETEROJUNCTIONS
O.V. Ogloblya, G.N. Kuznetsova |
XVII |
|
P7 |
Short isolated single-walled carbon nanotubes synthesized by arc
discharge process
Feng Li,
Zhigang Chen, Chang Liu, Gao-Qing Lu, Hui-Ming Cheng |
II |
|
P8 |
Nucleation of Single-walled Carbon
Nanotubes on Catalyst Particles: MD and Electronic Structure
Calculations
Feng Ding, Arne Rosén, Kim Bolton |
I |
|
P9 |
Room temperature electronic transport in as-produced and annealed
CVD-produced multi-wall carbon nanotubes
Hisashi
Kajiura, Anil Nandyala, Alexey Bezryadin |
XIV |
|
P11 |
Ab initio study of the ?-stacking interaction between organic molecules and carbon nanotubes
Florent Tournus, Sylvain Latil and Jean-Christophe Charlier
|
XIV |
|
P13 |
Sorting carbon nanotubes
via dielectrophoresis
R. Krupke, F. Hennrich |
XXI |
|
P14 |
Packing and chirality of double-walled
carbon nanotubes : a transmission electron microscopy and electron
diffraction study
J.F. Colomer, L. Henrard, P. Launois, G. Van Tendeloo, A. Lucas, Ph.
Lambin |
XIII |
|
P15 |
Atomic scale modelization
of the nucleation of C-SWNTtowards atomic scale modelization
H. Amara,C. Bichara,J.-P. Gaspard and F. Ducastelle |
XXI |
|
P16 |
Field emission from individual MWNT
M. Sveningsson, K. Hansen, K. Svensson, E. Olsson, E.E.B Campbell |
XV |
|
P17 |
The influence of different
metal underlayers on vertically aligned carbon nanofibers grown from Ni
dots by PE-CVD
R.E.
Morjan, M.S. Kabir, O.A. Nerushev, P. Lundgrenl,
E.E. B. Campbell and P. Enokson |
I |
|
P18 |
Carbon nanotubes: A modified model for numerical simulations of
elasticity moduli
Katya M. Simeonova, Ganka M. Milanova |
XII |
|
P19 |
New Directions of Nanotube Science: Synthesis, Properties, Characterization and Applications of B- and N-doped Carbon Nanotubes
M. Terrones, A. Jorio, M. Endo, H. Muramatsu, A.M. Rao, Y.A. Kim, T.
Hayashi, G. Van-Lier, H. Terrones, J.-C. Charlier, G. Dresselhaus, M.
S. Dresselhaus |
V |
|
P20 |
A Grand Canonical Monte-Carlo Study of the Structural and Adsorption Properties of Zeolite-Templated Carbon Nanostructures
T. Roussel, C.Bichara and R. J.-M. Pellenq |
III |
|
P21 |
Resonant Raman Intensity
of the Radial Breathing Mode of Single-Walled Carbon Nanotubes
Valentin Popov, Luc Henrard, and Philippe Lambin |
IV |
|
P22 |
An alternate mathematical model for single-wall carbon nanotubes
Nicolae Cotfas |
XXI |
|
P23 |
SWNT-OLEUM: PARTLY ORDERED SOLVENT SHELLS, TEMPLATED CRYSTALLIZATION
AND FIBER SPINNING
Wei Zhou and John E. Fischer |
X |
|
P26 |
Requirements to realize uniform emission all over the panel of CNT-FED
M. Okai, T. Muneyoshi, T. Yaguchi, and S. Sasaki |
XV |
|
P27 |
Room Temperature Peierls Distortion in Small Diameter Nanotubes
G.-M. Rignanese1, D. Connétable2, J.-C. Charlier1, and X. Blase |
XIII |
|
P28 |
TDDFT-MD simulation of ultrafast carrier decay in nanotubes: Dependence
on the lattice temperature
Yoshiyuki Miyamoto, Angel Rubio, and
David Tomanek |
XVI |
|
P29 |
Study of encapsulated mechanism of N2 into central hollow of multiwall
carbon nanotube
Ji Hoon Yang, Dae Ho Lee, Min Hyung Yum, Eun Jung Kim, Yong Sook Shin,
Myeung Hoi Kwon, Chul Woong Yang, Ji-Beom Yoo, Ha-Jin Song, Hyun-Joon
Shin, and Chong-Yun Park |
I |
|
P30 |
Field emission effect depends on the tip structure of CNTs synthesized
on the aluminum oxide template
Yong Sook Shin, Ji Hoon Yang, Dae Ho Lee, Min Hyung Yum, Myeung Hoi
Kwon, Chul Woong Yang, Ji-Beom Yoo, and Chong-Yun
Park |
XV |
|
P31 |
Nanostructure of Boron and Nitrogen incorporated muliwall carbon
nanotube
Ji Hoon Yang, Dae Ho Lee, Min Hyung
Yum, Eun Jung Kim, Yong Sook Shin, Myeung Hoi Kwon, Chul Woong Yang,
Ji-Beom Yoo, Kyuwook Ihm, Tai-Hee Kang, and Chong-Yun Park |
I |
|
P32 |
Nitrogen-doped Nanotubes as Biosensors
Hilary J. Hamnett, Sonia A. Contera, Kislon Voitchovsky, Nicole Grobert*
and John F. Ryan |
VII |
|
P33 |
Growth Mechanism of Carbon Single-Walled Nanotubes on Liquefied Metal
Particles
A.R. Harutyunyan, E.Mora, and T.
Tokune |
I |
|
P34 |
Industrial-Scale Production of Single-Walled Carbon Nanotubes by
Catalytic Decomposition Method
Avetik R. Harutyunyan |
I |
|
P35 |
Raman Spectroscopy of Individual Single-Walled Carbon Nanotubes from
Various Sources
Frank Hennrich, Ralph Krupke, Sergei Lebedkin, Katharina Arnold, Regina
Fischer, Daniel E. Resasco, Manfred M. Kappes |
IV |
|
P38 |
STATISTICAL PROPERTIES AND SCREENING EFFECTS IN CNT-BASED ELECTRON
FIELD EMISSION CATHODES
G. S. Bocharov and A. V. Eletskii |
XV |
|
P39 |
Diameter-Selective Encapsulation of Metallocenes in Single-Walled
Carbon Nanotubes
L.J. Li, R.J. Nicholas, J.G.
Wiltshire, A.N. Khlobystov and G.A.D. Briggs |
XVI |
|
P40 |
Direct structuring of single-walled carbon nanotube (SWNT) free
standing thin films using e-beam and focused ion-beam (FIB)
S. Malik, C. A. Volkert, H. Rösner,
O. Kraft, M. M. Kappes |
XXI |
|
P41 |
Reference standard for carbonaceous impurity measurements in carbon
nanotubes
Pavel Nikolaev, Sivaram Arepalli |
VI |
|
P43 |
Cylindrical Waves for Pure, Intercalated, and Embedded Nanotubes
P. N. D’yachkov |
XVI |
|
P44 |
A theoretical study of
curvature effects in defective nanotubes
Johan M. Carlsson and Matthias Scheffler |
XXI |
|
P45 |
DNA-Carbon Nanotube Hybrids- Aqueous Solutions and Ultra Thin Films-
Naotoshi Nakashima, Ayumi Ishibashi, Shingo Okuzono, Hiroto Murakami |
VII |
|
P46 |
Reactive Carbon Nanotube
Solubilizers
Naotoshi Nakashima, Kaori Narimatsu, Jyunichi Nishioka, Hiroto Murakami |
VII |
|
P47 |
Molecular Dynamics
Simulations of the mechanical and electronic properties of nanotubes
G. Seifert, V. Ivanovskaya, N. Ranjan, Th. Heine |
XII |
|
P48 |
Temperature dependence growth of carbon nanotubes monitored by TEOM
V. Švrček, F. Le Normand, T. Dintzer, O. Ersen, S. Joulie, C Phan-Huu, D. Begin, B. Louis,
M-J. Ledoux
|
I |
|
P49 |
Multi-walled carbon nanotubes growth from silicon- and zeolite-based
catalysts for optoelectronic applications
V. Švrček, F. Le Normand, T. Dintzer, O. Ersen, S. Joulie, C Phan-Huu, D. Begin, B. Louis,
M-J. Ledoux
|
I |
|
P50 |
Theoretical study of point defects and linear dislocations in single
walled BN nanotubes
A. Zobelli, C.P. Ewels, A.Gloter, G. Seifert, O. Stephan, C.Colliex |
VIII |
|
P52 |
Optical Ignition of Nanotubes-Doped Energetic Materials
M. Riad Manaa, Alexander R. Mitchell, Raul Garza, and Bruce Watkins |
XI |
|
P53 |
Ballistic Thermal and Electrical Conductance Measurements on Individual
Multi-wall Carbon Nanotubes
L. Hao, L. Brown, J. Gallop, J. Macfarlane, L. Cohen |
XIV |
|
P54 |
Chemical Functionalization Strategies for Separations of Carbon
Nanotubes
Sarbajit Banerjee and Stanislaus S. Wong |
VII |
|
P55 |
Control of SWCNT
properties via pre-formed catalyst particle diameter
Albert G. Nasibulin, Peter V. Pikhitsa, Hua Jiang, Esko. Kauppinen, |
II |
|
P56 |
Biased chirality
distribution of SWCNTs produced from ethanol via novel floating
catalyst method as determined by TEM/ED
H. Jiang, A.G. Nasibulin, Paula Queipo, A. Moisala and E.I. Kauppinen |
V |
|
P57 |
On-line detection of SWCNT formation in the floating catalyst method
Anna Moisalaa, Albert G. Nasibulina, Sergei
D. Shandakovb, Hua Jiangc and Esko I. Kauppinena,c |
VI |
|
P58 |
Thermophoretic deposition of catalyst clusters for substrate CVD growth
of carbon nanotubes
D. Gonzalez, A.G. Nasibulin, A.M. Baklanov, S.D. Shandakov, P. Queipo,
and E.I. Kauppinen |
I |
|
P59 |
Predictions of Preformed Catalyst Cluster Dynamics during SWCNT
Nucleation in a Novel Floating Catalyst Method Using a Combined CFD-Aerosol
Population Balance Model
D. P. Brown, A. G. Nasibulin, E. I. Kauppinen |
I |
|
P60 |
Aligned ultralong carbon nanotubes by a novel CVD method on smooth and
grooved SiO2/Si substrates
P. Queipo, A.G. Nasibulin, U. Tapper, D.
Gonzalez, K. Grigoras, H. Jiang, and E.I. Kauppinen |
I |
|
P61 |
Large diameter
SWCNTs grown on thin holey SiO2 substrates
P. Queipo , A.G. Nasibulin , P.V. Pikhitsa, H. Jiang , E. I. Kauppinen
|
I |
|
P62 |
DWNTs:
Gram-scale synthesis, characterisation, purification and applications
E. Flahaut, A. Peigney, Ch. Laurent |
I |
|
P63 |
Carbon Nano-tubes
for the fabrication of high on-off ratio field-emission transistors
Y. Abdi, J. Koohsorkhi, A. Miri and S. Mohajerzadeh |
XIX |
|
P64 |
First-principles Study of DNA-Carbon Nanotube Hybrids
Ralph H. Scheicher, Rajeev Ahuja |
VII |
|
P65 |
AC electrical characterization of SW-nanotube/metal contacts
S. Soliveres, M. S. Kabir A. Hoffmann, F. Pascal, C. Delseny, O. Nur,
S. Bengtsson, M. Willander, M. J. Deen |
XIV |
|
P66 |
Direct Tensile Tests and Buckling of WS2 Nanotubes
Ifat
Kaplan-Ashiri, Sidney R. Cohen, Konstantin Gartsman, Viktoria
Ivanovskaya, Thomas Heine, Gotthard Seifert, Inna Kanevsky, H.Daniel
Wagner and Reshef Tenne |
XII |
|
P67 |
Carbon nanotube -- calcium carbonate crystalline composites
William Ford, Adrian Jung, Andreas Hirsch, Akio Yasuda, and Jurina
Wessels |
IX |
|
P68 |
LIQUID SOURCE CVD OF FERROMAGNETIC FILLED CARBON NANOTUBES IN A
CONTINUOUS PROCESS
S. Hampel, A. Leonhardt, D. Selbmann, K. Biedermann, D. Elefant, B.
BüchnerI |
I |
|
P69 |
Nanomagnetism in Fe filled carbon nanotubes
IA.
Leonhardt, M. Ritschel, D. Elefant, N. Mattern, K. Biedermann, B.
Büchner |
XX |
|
P70 |
Exciton dynamics in semiconducting single-walled carbon nanotubes
ILeonas
Valkunas,Ying-Zhong Ma, and Graham R. Fleming |
XVI |
|
P71 |
Fluid Ice in Carbon Nanotubes
A.I. Kolesnikov, C.J. Burnham, C.-K. Loong, N.R. de Souza, A.P.
Moravsky, R.O. Loutfy |
III |
|
P72 |
Chiralities of
double-walled carbon nanotubes synthesized by a novel CVD method
H. Jiang, P. Queipo, A. G. Nasibulin and E. I. Kauppinen |
V |
|
P73 |
Correlating electrical and optical properties of individual
single-walled carbon nanotubes
M. Oron, F. Hennrich, H. v.
Löhneysen, M. M. Kappes and R. Krupke |
IV |
|
P74 |
Stress-induced shifts of photoluminescence of single-walled carbon
nanotubes
K. Arnold, F. Hennrich, O. Kiowski, S. Lebedkin, M. M. Kappes |
XVI |
|
P75 |
Third-Order
Nonlinearity In Carbon Nanotubes: Modeling And Comparison With
Experiments
S.A. Maksimenko, G. Ya. Slepyan,
A.M. Nemilentsau, A.A. Khrutchinskii |
XVI |
|
P76 |
Superhydrophobic surfaces using carbon nanotubes forests
C. Journet, S. Moulinet, C. Ybert,
S. T. Purcell, L. Bocquet |
X |
|
P77 |
STRUCTURAL INVESTIGATION OF NANOTUBE CARPETS AND FIBERS AT THE
MICROMETER SCALE USING SYNCHROTRON MICROFOCUS X-RAY DIFFRACTION
V. Pichot, M. Pinault, M. Mayne-L'Hermite, C. Reynaud, C. Zakri, P.
Poulin, M. Burghammer, C. Riekel and P. Launois |
XXI |
|
P78 |
FUNCTIONALIZATION OF SINGLE WALL CARBON NANOTUBES WITH POLY(ETHYLENE
GLYCOL)
E. Menna, F. Della Negra, M. Maggini, G. Scorrano and M.
Meneghetti |
VII |
|
P79 |
Direct evidence for base-growth of carbon nanotubes in multilayer
carpets formed by aerosol-assisted Catalytic CVD
M. Pinault, M.
Mayne-L'Hermite, C. Reynaud, V. Pichot, P. Launois, M. Burghammer, C.
Riekel, H. Khodja |
I |
|
P80 |
A Raman study of dimetallofullerene peapods
A. Débarre, C. Julien, D. Nutarelli, P.Tchénio |
IV |
|
P81 |
High-Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes
I. Takesue, N. Kobayashi, J.
Haruyama, S. Chiasi, S. Maruyama, T. Sugai, H. Shinohara |
XIV |
|
P82 |
Gate-controlled Tomonaga-Luttinger liquid and atomic-like behaviors in
peapod quantum dots
J. Mizubayashi, J. Haruyama, I. Takesue, T. Okazaki, H.S
hinohara, N. Harada, Y. Awano |
XIV |
|
P83 |
Electromechanical instability in suspended carbon nanotubes
L. M Jonsson, L. Y. Gorelik,
R. I. Shekhter, and M. Jonson |
XIV |
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