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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 (sorted by category)
(Click HERE
for chronological listing)
(Please contact Dr. Feng Ding at
fengding@fy.chalmers.se
in case of any problems with your submitted abstracts)
LOG
NUMBER
|
TITLE
|
NEW NUMBER |
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Keynote presentations |
|
Invited talks |
|
Contributed talks |
Posters
(Note: poster boards are 976 mm wide and 1400 mm high) |
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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 |
|
|
|
|
|
|
Contributed Abstracts |
|
Contributed Talks |
|
P47 |
Molecular Dynamics
Simulations of the mechanical and electronic properties of nanotubes
G. Seifert, V. Ivanovskaya, N. Ranjan, Th. Heine |
C1 |
|
P97 |
Evidence for Luttinger-Liquid Behavior in Crossed Metallic Single-Wall
Nanotubes
B.Gao, A.Komnik, R.Egger, D.C.Glattli, and
A.Bachtold |
C2 |
|
P384 |
Single walled carbon nanotube growth from lithographically defined
nanoparticle
Masahiko Ishida, Hiroo Hongo, Fumiyuki Nihey, and Yukinori Ochiai |
C3 |
|
P238 |
A Three Terminal Carbon Nanotube Relay
S.W. Lee, M. Sveningsson, Y.W. Park, E.E.B. Campbell |
C4 |
|
P264 |
Physical mechanism for the mechanical reinforcement in nanotube-polymer
composite materials
A. Wall, J. N. Coleman and M. S. Ferreira |
C5 |
|
P8 |
Nucleation of Single-walled Carbon
Nanotubes on Catalyst Particles: MD and Electronic Structure
Calculations
Feng Ding, Arne Rosén, Kim Bolton |
C6 |
|
P41 |
Reference standard for carbonaceous impurity measurements in carbon
nanotubes
Pavel Nikolaev, Sivaram Arepalli |
C7 |
|
P112 |
Current-Induced Permanent Bend of Carbon Nanotubes
A.Nagataki, O.Suekane, X.Cai,
S.Akita and Y.Nakayama |
C8 |
|
P347 |
Unperturbed Optical Transition Energies in Carbon Nanotubes
Yan Yin, Stephen Cronin, Andrew
Walsh, Alexander Stolyarov, Michael Tinkham, Anthony Vamivakas,
Wolfgang Bacsa, M. Selim Ünlü, Bennett B Goldberg and Anna K. Swan |
C9 |
|
P182 |
Mobility of native and electron-irradiation-induced point defects in
carbon nanotubes
A.V. Krasheninnikov, F.
Banhart, A.S. Foster and R.M. Nieminen |
C10 |
|
P127 |
Shot noise and electron-phonon coupling in carbon nanotubes
Fan Wu, Taku Tsuneta, Mikko Paalanen, Taihong Wang, and Pertti
Hakonen |
C11 |
|
P117 |
Influence of Length on Cytotoxicity of Multi-Walled Carbon Nanotubes
against Human Acute Monocytic Leukemia Cell Line THP-1 in Vitro and
Subcutaneous Tissue of Rats
in Vivo
Yoshinori Sato, Atsuro Yokoyama, Ken-ichiro Shibata, Yuki
Akimoto, Shin-ichi Ogino, Yoshinobu Nodasaka, Takao Kohgo, Kazuchika
Tamura, Tsukasa Akasaka, Motohiro Uo, Kenich Motomiya |
C12 |
|
P277 |
Magnetic properties of metal phosphide nanoparticles periodically
inserted in carbon nanotubes
Vincent Jourdain, John
Robertson, Ed Simpson, Takeshi Kasama, Rafal Dunin-Borkowski, Matthieu
Paillet, Philippe Poncharal, Ahmed Zahab, Patrick Bernier, Etienne
Snoeck, Annick Loiseau |
C13 |
|
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Posters |
Sorting Categories
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(402 contributed abstracts received in total)
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I .
CVD Synthesis of Carbon nanotubes
(81) |
Back |
|
P8 |
Nucleation of Single-walled Carbon
Nanotubes on Catalyst Particles: MD and Electronic Structure
Calculations
Feng Ding, Arne Rosén, Kim Bolton |
I.1 |
|
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.2 |
|
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.3 |
|
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.4 |
|
P33 |
Growth Mechanism of Carbon Single-Walled Nanotubes on Liquefied Metal
Particles
A.R. Harutyunyan, E.Mora, and T.
Tokune |
I.5 |
|
P34 |
Industrial-Scale Production of Single-Walled Carbon Nanotubes by
Catalytic Decomposition Method
Avetik R. Harutyunyan |
I.6 |
|
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.7 |
|
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.8 |
|
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.9 |
|
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.10 |
|
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.11 |
|
P61 |
Large diameter
SWCNTs grown on thin holey SiO2 substrates
P. Queipo , A.G. Nasibulin , P.V. Pikhitsa, H. Jiang , E. I. Kauppinen
|
I.12 |
|
P62 |
DWNTs:
Gram-scale synthesis, characterisation, purification and applications
E. Flahaut, A. Peigney, Ch. Laurent |
I.13 |
|
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.14 |
|
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.15 |
|
P84 |
Synthesis of Carbon Nanofibers on the Surface and in the Pores of
Modified Activated Carbon
Xiaowei Chen, Dangsheng Su,
Robert Schlögl |
I.16 |
|
P87 |
Single-wall carbon nanotubes synthesized on islanded catalytic film by
a single burst of acetylene
I.I.Khodos, Yu.A.Kasumov, V.N.Matveev, V.T.Volkov, A.Yu Kasumov |
I.17 |
|
P92 |
Study of Temperature, Time and Catalyst role in the Fabrication of
PECVD Grown Carbon Nanotubes
A. Miri, S. MohajerZadeh, E.
Arzi, F. Nasehnia |
I.18 |
|
P100 |
Influence of the catalyst composition on the growth rate of isolated
SWCNTs
X. Devaux, M. Vergnat, and L.
Lebrizoual |
I.19 |
|
P101 |
Effect of particle size in Co-Fe supported on alumina catalyst on the
multi-walled carbon nanotubes production
Ricardo Prada Silvy, Bénédicte Culot and Fanny Ličgeois |
I.20 |
|
P105 |
Freestanding single-walled carbon nanotube formation via
diffusion-plasma chemical vapor deposition
T. Kato, T. Hirata, R. Hatakeyama, and K. Tohji |
I.21 |
|
P109 |
MOCVD synthesis, purification and structural characterization of
Fe-filled multi-walled carbon nanotubes
B. S. Kaverin, A. M. Ob`edkov, G.A.
Domrachev, A.A. Zaitsev, S. N. Titova, A.I. Kirillov, M.A. Lopatin,
K.B.Zhogova, Yu. V. Ignat'ev, M. V. Tatsenko, V. I. Zaikovsky |
I.22 |
|
P113 |
Control of diameter distribution of SWNTs using the zeolite-CCVD method
Atsuto Okamoto, Hisanori
Shinohara |
I.23 |
|
P115 |
Laser-Irradiated Chemical Vapor Deposition for Position- and
Chirality-Controlled Growth of Single-Walled Carbon Nanotubes
Y. Fujiwara, K. Maehashi, Y.
Ohno, K, Inoue, K, Matsumoto |
I.24 |
|
P120 |
High Yield, Selective Growth of Millimeter Long, Vertically Aligned
Single-Walled Carbon Nanotubes at Low Temperatures
Guofang Zhong, Takayuki
Iwasaki, Iwao Ohdomari and Hiroshi Kawarada |
I.25 |
|
P121 |
Is plasma assistant CVD unfavorable for the growth of single-walled
carbon nanotubes?
Guofang Zhong, Takayuki Iwasaki, Iwao Ohdomari and Hiroshi
Kawarada |
I.26 |
|
P126 |
New technology for directional control of Multi-walled Nanotubes
Akio Kawabata, Mizuhisa Nihei, Daiyu Kondo, Shintaro Sato and
Yuji Awano |
I.27 |
|
P133 |
Versatility of the Fe/Al2O3 system for high-yield carbon nanotube growth by thermal CVD of C2H4
Anastasios John Hart, Alexander H. Slocum
|
I.28 |
|
P134 |
Carbon nanotube growth studies using gas activity gradients introduced
by novel sample configurations
Anastasios John Hart, Alexander H. Slocum |
I.29 |
|
P143 |
Online BET Analysis of Single-Wall Carbon Nanotube Growth and its
Effect on Catalyst Reactivation
Guoqing Ning, Fei Wei*,
Guohua Luo, Yong Jin |
I.30 |
|
P146 |
Fundamental understanding the growth of carbon nanotubes by
microkinetic modeling
De Chen, Zhixin Yu, Ingvar Kvande, and Anders Holmen |
I.31 |
|
P149 |
Effect of the molecular structure of carbon source on carbon nanotube
Robert J. Andrews, Catriona
F. Smith and Andrew J. Alexander |
I.32 |
|
P153 |
The role of substrate surface for catalyst formation for CNT growth by
CVD
D. Sarangi, S. Schiesser, A.
Jungen and C. Hierold |
I.33 |
|
P163 |
Parameters optimization of carbon nanotube growth by CVD method in
fluidized bed reactor
E.Fakhr Mosavi, M.M.Akbarnejad, G.abolhamd, A.M.Rashidi |
I.34 |
|
P165 |
Low temperature growth of SWCNT by plasma enhanced chemical vapor
deposition
Eun Ju Bae,Yo-Sep Min,Ju-Hye
Ko,Donghun Kang, and Wanjun Park |
I.35 |
|
P169 |
Direct Photolithographic Route to Selective Growth of Single-Walled
Carbon Nanotubes Using a Modified Photoresist with Ferrocene
Yo-Sep Min, Eun Ju Bae, Wanjun Park |
I.36 |
|
P171 |
Temperature and reaction time effects on the synthesis of SWNTs by
methane CVD in a fluidized bed reactor
Qunfeng Zhang, Hao Yu, Guohua Luo, Weizhong Qian, Fei Wei |
I.37 |
|
P173 |
Growth of SWNTs and MWNTs from titanium-cobalt bimetallic particles as
a catalyst
Shintaro Sato, Daiyu Kondo, Akio Kawabata, Yuji Awano |
I.38 |
|
P176 |
Production of clean single-walled carbon nanotube by floating catalyst
system
M.M. Akbarnejad, A.M.Rashidi, G.Abolhamd, and E.Fakhr mosavi |
I.39 |
|
P181 |
Single-walled carbon nanotubes grown from diameter-controlled iron
nanoparticles
Daiyu Kondo, Shintaro Sato,
Yuji Awano |
I.40 |
|
P189 |
Continuous production of bulk carbon nanotubes on floating catalysts on
MgO in a fluidized bed reactor
A. Shahbazi, Y. Mortazavi, A. Khodadadi, H. Hesamzadeh |
I.41 |
|
P190 |
The
role of catalytic particle state in multi-walled carbon nanotube growth
K. Bartsch, K. Biedermann, T. Gemming, and A. Leonhardt |
I.42 |
|
P198 |
Directional growth of carbon nanotubes synthesized by Fe -catalyzed
chemical vapor processes on patterned substrates
Vincenzo Vinciguerra, Maria Fortuna Bevilacqua, Salvo La Delfa,
Wang Shanzhong, Adeline Chan, Brenda Nai, Ivan Teo, Jonathan Sim,
Renato Angelucci, Rita Rizzoli |
I.43 |
|
P200 |
Formation of CNT's by Temperature Programmed Decomposition of Methane
over Co Catalysts
N. Latorre, T. Ubieto, A. Valera, C. Royo, E. Romeo, M.L.Sanjuan and
A. Monzón |
I.44 |
|
P203 |
Multi walled carbon nanotubes formation on Cobalt and Iron oxides
Ricardo Prada Silvy,
Bénédicte Culot |
I.45 |
|
P204 |
Catalyst free low temperature direct growth of carbon nanotubes on SiGe
islands and Ge quantum dots
T. Uchino, K. N. Bourdakos?, P. Ashburn, C. H. de Groot, M. E.
Kiziroglou, and D. C. Smith |
I.46 |
|
P217 |
The growth of carbon nanotubes through catalyst control with support
using chemical vapor deposition
S.H. Lee, T.Y. Lee, J.H. Han, D.G. Kuvshinov, A.S. Berdinsky,
Y.U. Kwon. J.B. Yoo, C.Y. Park |
I.47 |
|
P219 |
Controlling growth of carbon nanotubes in micro-holes by thermal
chemical vapor deposition at low temperature
Goichi Takeda, Lujun Pan and Yoshikazu Nakayama |
I.48 |
|
P223 |
Ab-initio Molecular Dynamics Study of Reactions Involving
Hydrogen or Oxygen in Carbon Nanotube Growth
Mari Ohfuti, Yuji Awano |
I.49 |
|
P227 |
Controlling growth of carbon nanotubes
Yanki Keles, Mirko Milas,
Thomas Stöckli, Verena Thommen, Stephan Fahlbusch, Ernst Meyer, Laszlo
Forro, Helmut F. Knapp |
I.50 |
|
P230 |
Innovative synthesis of carbon nanotubes by chemical vapor deposition
using Fe/Mo nanoparticle arrays as catalyst for the growth process
A.R. Phani, and S. Santucci
|
I.51 |
|
P232 |
Iron encapsulated carbon nanotube and its properties
H. Nishino, T. Saitoh, K. Okimi, M.Sakai |
I.52 |
|
P233 |
Surface
Modifications During CVD growth of SWNT in an Electric Field
J. Svensson, S. Dittmer, O. Nerushev, E.E.B. Campbell |
I.53 |
|
P243 |
Surface Diffusion: The Low Activation Energy Path for Nanotube Growth
S. Hofmann, G. Csanyi, A. C.
Ferrari, C. Ducati, M. Cantoro, B. Kleinsorge, M. C. Payne, J.
Robertson |
I.54 |
|
P244 |
Kinetics of methane pyrolysis over different catalysts
I. V. Anoshkin, S. N. Blinov,
I. G. Ivanov, N. N. Yuferev, E. V. Rakova, E. G. Rakov |
I.55 |
|
P252 |
Innovative synthesis of carbon nanotubes by chemical vapor deposition
using Fe/Mo nanoparticle arrays as catalyst for the growth process
A.R. Phani, and S. Santucci |
I.56 |
|
P261 |
Optical emission spectra from plasma during PE-CVD growth of decorated
carbon nanotubes
M. Jönsson, R.-E. Morjan, M. Sveningsson O. A. Nerushev, E.E.B.
Campbell |
I.57 |
|
P262 |
Utilization of MWCNT for the detection of antigen-antibody reaction in
cancer diagnosis
J.S. Lee, D. Kim, S.Y. Yoo, S.Y. Lee |
I.58 |
|
P271 |
Nano-contact printing of Co colloid catalyst for growth of vertically
aligned carbon nanotubes/fibers
M. Cantoro, V. B. Golovko, S. Hofmann, H. W. Li, B. Kleinsorge,
J. Geng, Z. Yang, D. A. Jefferson, A.C. Ferrari, B. F. G. Johnson, W.
T. S. Huck, J. Robertson |
I.59 |
|
P283 |
Three-dimensional Internal Order in Multiwall Carbon Nanotubes Grown by
Chemical Vapour Deposition
Milo Shaffer, Krzysztof Koziol, and Alan Windle |
I.60 |
|
P285 |
On the roles of multilayered metal catalysts in the synthesis of
high-quality single-walled carbon nanotubes
H.C. Su ,K.Y. Shin,K.C.Leou and C.H. Tsai |
I.61 |
|
P287 |
The effect of catalysts(iron, cobalt and nickel) on the mechanism and
kinetics of carbon nanotube growth by thermal CVD method
Y.A. Mo, Z.Y. Juang, J.F. Lai, , and C.H. Tsai |
I.62 |
|
P294 |
Kilogram-scale SWNT Production in a Fluidized bed Reactor
Yi Liu, Qunfeng Zhang, Luo Guohua, Fei Wei, Weizhong Qian |
I.63 |
|
P295 |
Evaluating nanotube/matrix interface by EELS
Takuya Hayashi, Hiroyuki Muramatsu, Yoong Ahm Kim, and Morinobu
Endo |
I.64 |
|
P300 |
Towards the optimisation of the large-scale production of MWNTs grown
by CVD of ethane on Fe / Al2O3 : reaction kinetics study
J. Amadou, V. Svrcek, T. Dintzer, D. Begin, B. Louis, M.J.
Ledoux, C. Pham-Huu |
I.65 |
|
P314 |
Suspended Single-Walled Carbon Nanotubes directly grown in ceramics
Taro Ueno, Shingo Okubo, Shinzo Suzuki, Yohji Achiba, Kazuhito
Tsukagoshi, and Hiromichi Kataura |
I.66 |
|
P315 |
Aligned growth of isolated single-walled carbon nanotubes programmed by
atomic-arrangement of crystalline surfaces
H. Ago, K. Nakamura, K.
Ikeda, N. Uehara, and M. Tsuji |
I.67 |
|
P326 |
Direct synthesis of suspended single-walled carbon nanotubes on tips of
post-treated carbon nanofibers
C H. Weng, W. Y. Lee, Z. Y. Juang, J. F. Lai, K. C. Leou, C. H.
Tsai |
I.68 |
|
P345 |
Alcohol CVD Growth, Raman and Photoluminescence Spectroscopy of
Single-Walled Carbon-13 Isotope Nanotubes
S. Maruyama and Y. Miyauchi |
I.69 |
|
P352 |
Synthesis and Morphological studies on aligned and dispersed MWCNTs
Rodrigo Segura, Rodrigo Soto, Wladimir Ibańez and Patricio
Häberle |
I.70 |
|
P356 |
Molecular Dynamics Simulation of Initial Nucleation Process of SWNT
from a Metal Particle on a Substrate
Yasushi SHIBUTA and Shigeo
MARUYAMA |
I.71 |
|
P364 |
Continuous production of highly pure carbon nanotubes and the
application in filed emission and thermal conducting fluid
Shu-Jiuan Huang, Wen-Sheng
Chang, Sheng-Min Wang and Ming-Chang WeN |
I.72 |
|
P366 |
Cross-sectional TEM investigation of Ni- catalysed carbon nanotube
films by plasma enhanced CVD
Y. Yao, L. K. L. Falk, R. E. Morjan,
O. A. Nerushev , and E. E. B. Campbell |
I.73 |
|
P367 |
High selectivity of single-walled carbon nanotubes grown on silicon
substrate by thermal chemical vapor deposition
D. L. Ma |
I.74 |
|
P368 |
TEM study on catalyst film transformation and growth of Fe-catalysed
CNT film by thermal CVD on Si-supported catalyst
Y. Yao, L.K.L. Falk, R.E. Morjan,
O.A.Nerushev, and E.E.B.Campbell |
I.75 |
|
P369 |
Role of charge transport in carbon nanotube growth: Theoretical
analysis
N.M. Bulgakova, A.V. Bulgakov, and E.E.B. Campbell |
I.76 |
|
P384 |
Single walled carbon nanotube growth from lithographically defined
nanoparticle
Masahiko Ishida, Hiroo Hongo, Fumiyuki Nihey, and Yukinori Ochiai |
I.77 |
|
P387 |
Using Washable Catalyst Support for CVD Synthesis of Carbon Nanotubes
Ali Eftekhari, Parvaneh Jafarkhani, Mohammad Pazouki |
I.78 |
|
P389 |
Effects of pattern down-sizing in CNT localized CCVD growth
Stéphane Casimirius, Martin Holmstrand, Emmanuel Flahaut, Alain Peigney, Christophe Laurent, Franck Carcenac and Christophe Vieu.
|
I.79 |
|
P390 |
Isolated single wall carbon nanotubes by PECVD
A. Gohier, S. Point, A. Djouadi, A. Granier, T. Minea |
I.80 |
|
P394 |
The role of metal catalyst particles in carbon nanotube growth
Nicole Grobert |
I.81 |
|
|
|
|
|
|
II.
Non-CVD Synthesis of Nanotubes
(17) |
Back |
|
P1
|
Long Amorphous Carbon Nanotube
Ropes Synthesized
by An Arc
Discharge at Controlled Temperature
T.K. Zhao , Y.N. Liu , J.W. Zhu
|
II.1 |
|
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.2 |
|
P55 |
Control of SWCNT
properties via pre-formed catalyst particle diameter
Albert G. Nasibulin, Peter V. Pikhitsa, Hua Jiang, Esko. Kauppinen, |
II.4 |
|
P91 |
Carbon Nanotubes and Boron Nitride Nanofibres Synthesized by Radio
Frequency Magnetron Sputtering
D.M. Zhu, G. Jakovidis and L.
Bourgeois |
II.5 |
|
P93 |
Synthesis of single-walled carbon nanotubes at large scale with high
quality by electric arc using metal compounds
Yongsheng Chen,Xin Lv, Feng Du, Yanfeng Ma, Qiang Wu |
II.6 |
|
P94 |
Vertically aligned carbon nanotubes by spray pyrolysis of a natural
precursor
Rakesh A. Afre, M.Sharon, T.
Jimbo and T. Soga |
II.7 |
|
P128 |
Effect of carbon electrode on the yield of macroscopic SWNT net
Y. Ando, T. Kadoya,
T. Kitamura, T. Ikeda, X. Zhao, S. Inoue, T. Suzuki, Y. Takimoto |
II.8 |
|
P141 |
Study on the synthesis mechanism of carbon nanotubes in a dc arc
discharge process
H.H.Kim, H.J.Kim |
II.9 |
|
P154 |
Towards a wet chemical synthesis of carbon nanotubes with uniform but
tunable dimensions and properties
Glen Miller, Shinya Okano,
and David Tomanek |
II.10 |
|
P202 |
Formation of single-walled carbon nanotubes by laser vaporization
Michčle Cau, Nelly Dorval,
Brigitte Attal-Trétout, Jean Lou Cochon, Daniel Pigache, Annick Loiseau |
II.11 |
|
P292 |
Large scale production and purification of high-quality DWNTs by
high-temperature pulsed arc discharge
Toshiki Sugai |
II.12 |
|
P302 |
Patterned growth of carbon nanotubes without pre-catalyst deposition
Ying Chen, Jun Yu |
II.13 |
|
P322 |
The study of the influence of sulfur promoter in arc discharge
production of SWCNTs using various catalysts
Miro Haluska, Viera Skákalová, Martin Hulman, Siegmar Roth |
II.14 |
|
P357 |
Chirality control of carbon nanotubes on self-ordered SiC nanofacets
Satoru Tanaka, Hiroki Toyoda, Kenjiro Hayashi, Seigi Mizuno,
Hiroshi Tochihara, Ikuo Suemune |
II.15 |
|
P383 |
Comparison of Efficiencies of Composite Catalysts in Arc-Discharge
Synthesis of Single-Walled Carbon Nanotubes Using NIR Spectroscopy
F. Borondics, M. E. Itkis, D. Perea, B. Hamilton and R. C. Haddon |
II.16 |
|
P391 |
Real-Time Study of Nucleation and Growth of Vertically Aligned Single
Wall Carbon Nanotube Arrays
Gyula Eres, A. A. Puretzky, D. B. Geohegan, C. M. Rouleau, H.
Cui |
II.17 |
|
P401 |
n-TEC: a new producer of multi-wall carbon nanotubes and related carbon
nanomaterials
J. P. PINHEIRO, B. ASDAL, B.
CECCAROLI |
II.18 |
|
P4 |
Experimental study of
mechanism of carbon nanotube formation in the arc discharge
Vladislav A.
Ryzhkov
|
II.19 |
|
|
|
|
|
|
III.
Formation and Characterization of Unusual Nanostructures
(14) |
Back |
|
P2 |
A Novel Coral-like
Carbon Nanotubes
T.K. Zhao , Y.N. Liu , J.W. Zhu
|
III.1 |
|
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.2 |
|
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.3 |
|
P108 |
Growing Carbon Nanofibers on Carbon blacks by Non-catalytic Chemical
Vapor Deposition
Jarrn-Horng Lin, Hsiu-Wei
Chen and C. S. Chen |
III.4 |
|
P122 |
High yield preparation of metal encapsulated single-wall carbon
nanohorns
Keita Kobayashi, Akira Koshio,
and Fumio Kokai |
III.5 |
|
P142 |
The Crystallogeometric Characteristics of Catalytically Formed Carbon
Nanofibers
B. A. Kulnitskiy, V. D. Blank, Yu.L. Alshevskiy, N.V.Kazennov,
I.A.Perezhogin |
III.6 |
|
P158 |
Adsorption States of Organic Materials Inside Single-Wall Carbon
Nanohorns
Jing Fan, Masako Yudasaka,
Jin Miyawaki, Sumio Iijima |
III.7 |
|
P162 |
Preparation and properties of metal encapsulating carbon nanocapsules (MECNCs)
Motohiro Uo, Yoshinori Sato,
Tsukasa Akasaka, Fumio Watari and Kazuyuki Tohji |
III.8 |
|
P212 |
Thermal Conversion of Bundled Carbon Nanotubes into Graphitic Ribbons
P. C. Eklund , U. J. Kim, H. R. Gutiérrez, V. H. Crespi, J. P.
Kim, C. A. Furtado |
III.9 |
|
P266 |
A Novel Structure of Carbon Nanofiber Stacked of Nanocone
Cheng-Der Lin, Chi-Young Lee, Tsung-Shune Chin and Hsin-Tien
Chiu |
III.10 |
|
P277 |
Magnetic properties of metal phosphide nanoparticles periodically
inserted in carbon nanotubes
Vincent Jourdain, John
Robertson, Ed Simpson, Takeshi Kasama, Rafal Dunin-Borkowski, Matthieu
Paillet, Philippe Poncharal, Ahmed Zahab, Patrick Bernier, Etienne
Snoeck, Annick Loiseau |
III.11 |
|
P279 |
Atomic Step-Templated Formation of SWNT Patterns
Ernesto Joselevich, Ariel
Ismach, Lior Segev and Ellen Wachtel |
III.12 |
|
P316 |
A New Structure of One-Dimensional Nanomaterials: Rectangular
Multi-Channel Nanotubes
Ali Eftekhari, Parvaneh
Jafarkhani, Fathollah Moztarzadeh |
III.13 |
|
P378 |
Ordered water inside carbon nanotubes: formation of pentagonal to
octagonal ice-nanotubes
Yutaka Maniwa, Hiromichi Kataura,
Masatoshi Abe, Akiko Udaka, Shinzo Suzuki, Yohji Achiba, Hiroshi Kira,
Kazuyuki Matsuda, Hiroaki Kadowaki, Yutaka Okabe |
III.14 |
|
|
|
|
|
|
IV.
Raman
Characterization of Nanotubes
(12) |
Back |
|
P21 |
Resonant Raman Intensity of the Radial Breathing Mode of Single-Walled
Carbon Nanotubes
Valentin Popov, Luc Henrard, and Philippe Lambin |
IV.1 |
|
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.2 |
|
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.3 |
|
P80 |
A Raman study of dimetallofullerene peapods
A. Débarre, C. Julien, D. Nutarelli, P.Tchénio |
IV.4 |
|
P167 |
An Experimental Kataura-Plot of DWCNTs
R. Pfeiffer, F. Simon, H.
Kuzmany, and V. N. Popov |
IV.5 |
|
P199 |
Vertically Aligned Ag Coated MWNTs for SERS
J.A. Dueńas, P. Dawson, S.E.J. Bell, A.S. Teh, K.B.K. Teo and
W.I. Milne |
IV.6 |
|
P210 |
Infrared-ActiveVibrational Modes of Single-Walled Carbon Nanotubes
U. J. Kim, X. M. Liu, C. A.
Furtado, G. Chen, R. Saito, J. Jiang, M.S. Dresselhaus and P. C. Eklund |
IV.7 |
|
P222 |
Electrochemical and chemical redox doping of carbon nanostructures
Martin Kalbáč,
Ladislav Kavan, Markéta Zukalová and Lothar Dunsch
|
IV.8 |
|
P337 |
Raman study under pressure in DWCNT filled with PbI2
J.M. Broto, B.Raquet, B.Lassagne, J.González, Ch.Power, P. Puech,
E. Flahaut |
IV.9 |
|
P340 |
UV-Raman spectroscopy on nanotubes@zeolite
M. Machón, S. Reich, J. Maultzsch, P. Puech, Z. K. Tang, and C.
Thomsen |
IV.10 |
|
P359 |
Temperature dependence of Raman scattering from Single-Walled Carbon
Nanotubes
Shohei Chiashi, Yoichi
Murakami, Yuhei Miyauchi and Shigeo Maruyama |
IV.12 |
|
|
|
|
|
|
V .
Characterization of Nanotubes
(18) |
Back |
|
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.1 |
|
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.2 |
|
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.3 |
|
P86 |
Purity Evaluation of Bulk Single Wall Carbon Nanotube Materials
U. Dettlaff-Weglikowska, J.
Wang, J. Liang, and S. Roth |
V.4 |
|
P89 |
Inorganic nanotubes: analysis through modern microscopic techniques and
elecrtical measurements
D. Golberg, Y. Bando, P. Dorozhkin, S. Tovstonog, J. Zhan, J. Hu,
C. Zhi, L. Yin, C. Tang, M. Mitome |
V.5 |
|
P195 |
Physisorption studies on carbon nanotubes: experiments and simulations
M.-R. Babaa, M. Arab, F. Valsaque, F. Picaud, C. Ramseyer, E. McRae |
V.6 |
|
P229 |
Electronic properties of Cs-intercalated SWNT, derived by NMR
spectroscopy
T. Wĺgberg, M. Schmid, E.
Abou-Hamad, M. Mehring, R. Aznar and C. Goze-Bac |
V.7 |
|
P246 |
NMR investigations of C60 encapsulated inside carbon nanotubes
E. Abou-Hamad, T. Wĺgberg, C.
Goze-Bac, S. Aloni 2, D. Boesch, A.Zettl |
V.8 |
|
P275 |
Nitrogen effect on the vertical alignment of N-doped carbon nanotubes
T.M. Minea, B. Bouchet-Fabre, S. Lazar, S. Point, H.W.
Zandbergen |
V.9 |
|
P289 |
Profiling the growth process of vertically aligned SWNTs by in situ
optical absorption measurements
Erik Einarsson, Yoichi Murakami, Tadao Edamura, Shigeo Maruyama |
V.10 |
|
P291 |
Photoluminescence of single-walled carbon nanotubes under hydrostatic
pressure
S. Lebedkin, K. Arnold, O. Kiowski, F. Hennrich, M. M. Kappes |
V.11 |
|
P297 |
Resilience of carbon nanotube technology in intense ionizing radiation
environments
Mihail P. Petkov and Eric W. Wong |
V.12 |
|
P305 |
Distributions of Fullerenes in Carbon Nanotube Production Determined by
Ion Mobility Measurements
Carl D. Scott, Michael Ugarov,
Robert H. Hauge, Edward Sosa, Sivaram Arepalli, and Leonard Yowell |
V.13 |
|
P319 |
Nitrogen doping of carbon nanotubes
O. Stéphan, C. P. Ewels, C. Colliex, M. Glerup, M. Castignolles, S. Enouz, A. Loiseau
|
V.14 |
|
P321 |
Small-Angle X-ray Scattering for Surface Analysis of Bundles of 1D
Nanomaterials
Ali Eftekhari, Parvaneh Jafarkhani, Fathollah Moztarzadeh |
V.15 |
|
P372 |
Confinement of Simple Gases Inside Open Single-Walled Carbon Nanotubes
Zygmunt J. Jakubek and Benoit Simard |
V.16 |
|
P392 |
Verification of Nanotubes Quality Evaluation Protocol at various sites
J.Cech, U.Dettlaff, J. Wang, J. Liang, S.Roth |
V.17 |
|
P396 |
NEXAFS Studies of Carbon Nanotubes
Sarbajit Banerjee, Tirandai Hemraj-Benny, Mahalingam Balasubramanian,
Sharadha Sambasivan, Daniel A. Fischer, James A. Misewich, and
Stanislaus S. Wong |
V.18 |
|
|
|
|
|
|
VI.
Nanotube Dispersion and Purification
(9) |
Back |
|
P41 |
Reference standard for carbonaceous impurity measurements in carbon
nanotubes
Pavel Nikolaev, Sivaram Arepalli |
VI.1 |
|
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.2 |
|
P125 |
Photoluminescence from SWNTs and DWNTs dispersed in saccharide solution
Takashi Shimada, Yuhei
Miyauchi, Toshiki Sugai, Hisanori Shinohara, and Shigeo Maruyama |
VI.3 |
|
P231 |
Heat treatment purification and opening of SWNT
P. Stenmark, B. Sundqvist and
T. Wĺgberg |
VI.4 |
|
P308 |
Dispersion of long aligned multi-wall carbon nanotubes and elaboration
of polymer-based composites
A.Mierczynska, J. Glory, M. Pinault, M. Mayne-L'Hermite, C.
Reynaud, J.K. Jeszka |
VI.5 |
|
P324 |
Simulations of Bundle Dissociation of Single-walled Carbon Nanotubes:
Entropic Effects
Donal Mac Kernan, Silvia Giordani, Jonathan N. Coleman , Shane
D. Bergin and Werner J. Blau |
VI.6 |
|
P325 |
Dissipative structures of carbon nanotubes induced by DC electric field
Syuichi Sato and Masahito Sano |
VI.7 |
|
P334 |
Selective Oxidation of Semiconducting Single-Wall Carbon Nanotubes in
Hydrogen Peroxide
Hiromichi Kataura, Yasumitsu Miyata,
and Yutaka Maniwa |
VI.8 |
|
P365 |
Bundle Dissociation of Single-walled Carbon Nanotube in Amide Solvents
Silvia Giordani, Shane D. Bergin, Donal Mac Kernan, Andrew I. Minett,
Jeremy Sloan, Jonathan N. Coleman and Werner J. Blau |
VI.9 |
|
|
|
|
|
|
VII.
Chemical Modification of Nanotubes
(29) |
Back |
|
P32 |
Nitrogen-doped Nanotubes as Biosensors
Hilary J. Hamnett, Sonia A. Contera, Kislon Voitchovsky, Nicole Grobert*
and John F. Ryan |
VII.1 |
|
P45 |
DNA-Carbon Nanotube Hybrids- Aqueous Solutions and Ultra Thin Films-
Naotoshi Nakashima, Ayumi Ishibashi, Shingo Okuzono, Hiroto Murakami |
VII.2 |
|
P46 |
Reactive Carbon Nanotube
Solubilizers
Naotoshi Nakashima, Kaori Narimatsu, Jyunichi Nishioka, Hiroto Murakami |
VII.3 |
|
P54 |
Chemical Functionalization Strategies for Separations of Carbon
Nanotubes
Sarbajit Banerjee and Stanislaus S. Wong |
VII.4 |
|
P64 |
First-principles Study of DNA-Carbon Nanotube Hybrids
Ralph H. Scheicher, Rajeev Ahuja |
VII.5 |
|
P78 |
FUNCTIONALIZATION OF SINGLE WALL CARBON NANOTUBES WITH POLY(ETHYLENE
GLYCOL)
E. Menna, F. Della Negra, M. Maggini, G. Scorrano and M.
Meneghetti |
VII.6 |
|
P95 |
Electronic structure calculations of potassium intercalated single-wall
carbon nanotubes
Anders Hansson and Sven Stafström |
VII.7 |
|
P104 |
Single-Stranded DNA Insertion into Single-Walled Carbon Nanotubes Using
Direct Current and Radio Frequency Electric Fields
T. Okada, T. Kaneko, R. Hatakeyama, and K. Tohji |
VII.8 |
|
P124 |
Destructive Adsorption of Oxygen Molecule on Thin Carbon Nanotubes
Depending on Chiralities: A DFT Approach
Takazumi Kawai, Yoshiyuki
Miyamoto |
VII.9 |
|
P140 |
Fluorination of double walled carbon nanotubes
Y. A. Kim, H. Muramatsu, T. Hayashi, M. Terrones, H. Touhara, M.
S. Dresselhaus and M. Endo |
VII.10 |
|
P150 |
DFT Study of the Enhancement of Molecular Hydrogen Adsorption on
Graphene Layers and Carbon Nanotubes due to Lithium Doping
I. Cabria, M. J. López and J. A. Alonso |
VII.11 |
|
P166 |
Introduction of Heteroatoms onto Defect Sites and Open Ends in SWNT
Andrei Gromov, Staffan Dittmer, Oleg A. Nerushev, Sergio Alfonso Perez-García,
Liliana Licea-Jiménez, Rodney Rychwalski and Eleanor E. B. Campbell |
VII.12 |
|
P172 |
Band-Gap Sensitive Adsorption of Fluorine Molecule on Sidewall of
Carbon Nanotube
Woon Ih Choi, Jisoon Ihm, Seungwu Han |
VII.13 |
|
P174 |
Continuous removal of amorphous carbon by CO2during carbon nanotube
synthesis by CCVD
Mohammad Esmaieli, Abbas Ali Khodadadi, Yadollah Mortazavi |
VII.14 |
|
P196 |
Highly efficient functionalization of carbon nanotubes using microwave
heating
Khalil Chajara, Junxin Li and Helena Grennberg |
VII.15 |
|
P250 |
Structural, electrical properties of in-situ coated carbon nanotubes
with NiS nanoparticles by sol-gel process for Solar cell applications
A.R. Phani, M. Passacantando and S. Santucci |
VII.16 |
|
P256 |
Effect of graphite platelet orientation on surface chemistry of
oxidized carbon nanofibers
Tie-Jun Zhao, De Chen, Ying-Chun Dai, Wei-Kang Yuan, Anders
Holmen |
VII.17 |
|
P257 |
Atmospheric plasma functionalization of chemically activated MWCNTS
T.I.T Okpalugo, P.
Papakonstantinou, N.M.D Brown |
VII.18 |
|
P298 |
Sensing different gasses at various pressures with carbon nanotubes
Mihail P. Petkov and Eric W. Wong |
VII.19 |
|
P304 |
Chemical Processing of Bundled Carbon Nanotubes into Sub-50 nm Short
Segments
H. S. Vieira, F. N. Paschoal, A. P.
Santos, C. A. Furtado, L. P. S. Pimenta, I. O. Maciel, C.
Fantini, A. Jorio, M. A. Pimenta, U. J Kim, P. C. Eklund |
VII.20 |
|
P313 |
Point Defects in Single-Walled Carbon Nanotube Circuits: finding,
counting, modifying, and characterizing
Y. Fan, B. Goldsmith, N. Emmott, and P.G. Collins |
VII.21 |
|
P318 |
Theory of Nitrogen interaction in carbon nanotubes
C. P. Ewels, T. Minea, B. Bouchet, O.
O. Stéphan
, P. R. Briddon, C. Colliex |
VII.22 |
|
P343 |
Charging and Covalent Sidewall-Functionalization of Single-Walled
Carbon Nanotubes by t-Butyllithium
R. Graupner, J. Abraham, A.
Vencelova, P. Lauffer, J. Röhrl, M. Hundhausen, A. Hirsch, and L. Ley |
VII.23 |
|
P344 |
Fluorination of Carbon Nanotubes.
C. P. Ewels, G. Van Lier,H.
Okuno, A. Felten, J.-J. Pireaux, J.-C. Charlier |
VII.24 |
|
P375 |
Preparation of opened single-walled carbon nanotubes and their
reversible filling with various materials
Lidong Shao, Gerard Tobías,
Yoon Huh and Malcolm L.H. Green |
VII.25 |
|
P377 |
Tailoring of Carbon Nanotube Surface Properties by Plasma Treatment and
the Preparation of Gold on CNT
I. Kvande, G. Řye, M. Rřnning,
A. Holmen, J. Sjřblom, D. Chen |
VII.26 |
|
P395 |
CHEMICAL MODIFICATION OF CARBON NANOTUBES FOR BONE IMPLANTS
APPLICATIONS
García A., Bustero I., Olalde B., Jurado M. J. Muńoz R. |
VII.27 |
|
P206 |
Effect of chemical treatment on the properties of single wall nanotubes
buckypaper
Viera Skákalová, A. B.
Kaiser, Ursula Dettlaff, Siegmar Roth |
VII.28 |
|
|
|
|
|
|
|
|
|
|
VIII.
Non-Carbon
Nanotubes
(12) |
Back |
|
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.1 |
|
P151 |
Geometric, Electronic and Hydrogen Physisorption Properties
I. Cabria, M. J. López and J. A. Alonso |
VIII.2 |
|
P205 |
Selective Synthesis and Morphology Control of II-VI Semiconductor
Nanowires
A. Colli, A. Fasoli, S.
Hofmann, A. C. Ferrari, C. Ducati, F. Martelli, S. Rubini, A. Franciosi,
and J. Robertson |
VIII.3 |
|
P211 |
Catalyst-free Silicon Nanowires and Nanocrystals: Growth and Electron
Transport
Z. A. K. Durrani, M. A. Rafiq, A. Colli, A. Fasoli, A. C.
Ferrari, J. Robertson, W. I. Milne |
VIII.4 |
|
P213 |
Morphology and Structure Transformation of Titanium Oxide
Tsung-Ying Ke Huang-Kai Linc Chih-Wei Peng, Yi-Jen Huang, Chi-Young
Lee, Hsin- Ten Chiu, Hwo-Shueenn Sheu, Yung-Ping Chiang |
VIII.5 |
|
P290 |
Synthesis of Amorphous and Crystalline Bismuth Sulfide Nanotubes
M. Vega-Gonzalez, X. Bokhimi,
M. Aguilar-Franco |
VIII.6 |
|
P299 |
Solubility and Structure Studies of Mo6S4.5I4.5 Nanowire Bundles
Valeria Nicolosi1, Peter Nellist1, Stefano Sanvito1, Jeremy
Sloan 2, Dragan Mihailovic3,4, Malcom Green2, Werner J. Blau1 and
Jonathan N. Coleman1 |
VIII.7 |
|
P303 |
BN nanotube formation via an in-situ nitriding reaction
Ying Chen, Jun Yu, B. Li, Rob Elliman |
VIII.8 |
|
P328 |
Structural and Mechanical Properties of MoS2-Ix nanotubes and Mo6S3I6 Nanowires
A. Hassanien, A. Mrzel, H. Kataura and M. Tokumoto |
VIII.9 |
|
P338 |
Single wall boron nitride nanotubes: experimental approaches of their
optical properties
A.Loiseau, R. Arenal, J.-S. Lauret, O. Stéphan, M. Kociak, D. Taverna, C. Colliex, B. Attal-Trétout, E. Rosencher,
|
VIII.10 |
|
P354 |
Direct Growth of Boron Nitride Nanotubes on Substrates
Jiesheng Wang, Vijaya Kayatha,
Yoke Khin Yap |
VIII.11 |
|
P381 |
On the Catalytic Growth of Aligned ZnO Nanowires
D.L. Baptista, S.H. Dalal, R.G. Lacerda, K.B.K. Teo, R.M.
Papaleo, and W.I. Milne |
VIII.12 |
|
|
|
|
|
|
IX.
Nanotube-Based Composites
(26) |
Back |
|
P67 |
Carbon nanotube -- calcium carbonate crystalline composites
William Ford, Adrian Jung, Andreas Hirsch, Akio Yasuda, and Jurina
Wessels |
IX.1 |
|
P139 |
Preparation of CNT/conducting polymer nanocables by gamma radiation
induced polymerization in the presence surfactant
Anantha Iyengar Gopalan, Kwang-Pill Lee, Se Hee Leea, Min-Seok
Kim |
IX.2 |
|
P155 |
Investigation on the mechanical properties of the hybrid nanocomposites
reinforced by carbon nanotubes and short carbon fibers
N. H. Tai, M. K. Yeh, Y. J.
Lin |
IX.3 |
|
P157 |
Large-scale Oriented PEO Nanofibers Embedded with Super-Long MWCNTs by
Eletrospinning
Weiping Zhou, Rong Xiang, Fei Wei, Guohua Luo |
IX.4 |
|
P170 |
CdS-filled carbon nanotubes: structural characterization and electrical
behaviour
A. Capobianchi, S. Foglia, P. Imperatori, G. Scavia, T. Del
Buono, A. Notargiacomo, M. Giammatteo, L. Arrizza, E. Palange |
IX.5 |
|
P183 |
Singlewall Carbon Nanotubes Enveloped by Dew-shaped Polystyrene
Hyeong Taek Ham, Yeong Suk Choi, Namjo Jeong, Yongseog Seo, In
Jae Chung |
IX.6 |
|
P208 |
Mechanical behaviour of polymer/polystyrene-grafted CNx nanotube
composites
B.Fragneaud,
K.Masenelli-Varlot, A. González Montiel, M.Terrones, J.Y.Cavaillé |
IX.7 |
|
P209 |
Carboxymethylcellulose as an Excellent Dispersant for Single-wall
Carbon Nanotubes Enabling the Formation of Dense and High Quality Thin
Films
N. Minami, S. Kazaoui, Y.
Kim, K. Miyashita, B. Nalini |
IX.8 |
|
P214 |
Transparent Conductive Film based on Carbon Nanotubes and PEDOT
Composites
J.S. Moon, J.H. Park, T.Y. Lee, J.B. Yoo, C.Y. Park, J.M.Kim |
IX.9 |
|
P226 |
Supported Coordinative Polymerization : an unique way to potent
polyolefin carbon nanotubes composites
M.Claes, D.Bonduel, M. Mainil,
F. Luizi, F. Monteverde, M. Alexandre, R. Prada Silvy, P. Dubois |
IX.10 |
|
P239 |
Thermal and electrical properties of carbon nanotube/polyurethane foam
Raquel Verdejo, Milo Shaffer |
IX.11 |
|
P240 |
Polymer Composites with Protein Functionalized Carbon Nanotubes
S. Bhattacharyya, J-P. Salvetat, C. Sinturel, M-L. Saboungi |
IX.12 |
|
P245 |
MECHANICAL PROPERTIES OF MWNT/CELLULOSE/MELAMINE-FORMALDEHYDE
COMPOSITES
L. Licea-Jiménez, P-Y. Henrio, A. Lund, S. A. Pérez-García, L.
Nyborg, M. Johansson, R. Rychwalski |
IX.13 |
|
P247 |
Structural relaxation, expansivity and glass transition in spin-cast,
glassy nanocomposite thin films containing carbon nanotubes
Lopez-Garcia, J L Keddie, A
Dalton, M Sferrazza |
IX.14 |
|
P251 |
Structural, compositional, mechanical properties of carbon nanotube
reinforced zirconia matrix nanocomposite films by sol-gel process
A.R. Phani, L.Lozzi and S.
Santucci |
IX.15 |
|
P254 |
Molecular dynamics simulations of mechanical properties of BN nanotube/Si-B-N
ceramics composites
Michael Griebel and Jan Hamaekers |
IX.16 |
|
P263 |
Energetics of helical wrapping of one-dimensional strands around carbon
nanotubes
A. Wall and M. S. Ferreira |
IX.17 |
|
P264 |
Physical mechanism for the mechanical reinforcement in nanotube-polymer
composite materials
A. Wall, J. N. Coleman and M. S. Ferreira |
IX.18 |
|
P270 |
Electrical and thermal conductivity of single- or multiwalled carbon
nanotube - polymer composites
A. Moisala, Q. Li, R. Schmidt, K. Koziol, I.A. Kinloch, A.H.
Windle |
IX.19 |
|
P280 |
Carbon nanofibre reinforced PEEK foams
Milo S.P. Shaffer, Raquel
Verdejo, Philipp Werner, Frank Wöllecke, Volker Altstädt, Jan K.W.
Sandler |
IX.20 |
|
P293 |
Process for Spin Coating Transparent and Electrically Conductive
Polymer-Nanotube Composite Films
Ronald H. Schmidt, Anna Moisala, Gordon Seeley, Ian Kinloch, Alan H. Windle |
IX.21 |
|
P301 |
Electrical conductivity of VACNFs-PS membranes
B.Gindre, A. Gromov, M.S. Kabir, O.A. Nerushev, R.E. Morjan, and
E.E.B. Campbell |
IX.22 |
|
P320 |
Carbon Nanotube-Based Composite as Cathode of Lithium Batteries
Ali Eftekhari, Mehran Solati Hashjin, Abdolmajid Bayandori Moghaddam, Parvaneh Jafarkhani
|
IX.23 |
|
P370 |
Raman scattering study of the interaction between liquid crystal
molecules and carbon nanotubes
Giusy Scalia, Miro Haluska,
Jan P. Lagerwall, Ursula Dettlaff, Frank Giesselmann and Siegmar Roth |
IX.24 |
|
P371 |
Carbon nanotubes dispersed and ordered in self-organizing lyotropic
liquid crystalline templates
Jan P. F. Lagerwall, Giusy
Scalia, Siegmar Roth, Frank Giesselmann |
IX.25 |
|
P393 |
Fully Integrated Carbon Nanotube Composites and Hybrid Materials
Fernand D.S. Marquis |
IX.26 |
|
|
|
|
|
|
X.
Morphology and Application of Modified Nanotubes
(13) |
Back |
|
P23 |
SWNT-OLEUM: PARTLY ORDERED SOLVENT SHELLS, TEMPLATED CRYSTALLIZATION
AND FIBER SPINNING
Wei Zhou and John E. Fischer |
X.1 |
|
P76 |
Superhydrophobic surfaces using carbon nanotubes forests
C. Journet, S. Moulinet, C. Ybert,
S. T. Purcell, L. Bocquet |
X.2 |
|
P117 |
Influence of Length on Cytotoxicity of Multi-Walled Carbon Nanotubes
against Human Acute Monocytic Leukemia Cell Line THP-1 in Vitro and
Subcutaneous Tissue of Rats
in Vivo
Yoshinori Sato, Atsuro Yokoyama, Ken-ichiro Shibata, Yuki
Akimoto, Shin-ichi Ogino, Yoshinobu Nodasaka, Takao Kohgo, Kazuchika
Tamura, Tsukasa Akasaka, Motohiro Uo, Kenich Motomiya |
X.3 |
|
P138 |
Electrospinning of covalent functionalized CNT reinforced nanofibers
Kwang-Pill Lee , Anantha Iyengar Gopalan, Kyu-Soo Kim, Sang-Ho
Kim |
X.4 |
|
P156 |
Characterization and application of multi-walled carbon nanotubes
synthesized by a combination of floating reactant method and post high
temperature treatment
T. Tsukada, J. Shan, Subiantoro, S. Tsuruoka, T. Hayashi, H.
Muramatsu, Y. A. Kim |
X.5 |
|
P179 |
Manipulate Visible Ultralong SWNTs Under Optical System
S. H. Chang, N. K. Chang |
X.6 |
|
P180 |
Raman- and Absorption Spectroscopic Studies on Chirality Dependent
Growth of Single-Walled Carbon Nanotubes Mediated by Boron and Nitrogen
Doping
M. Glerup, J.G. Wiltshire, A.N. Khlobystov, L.-J. Li, L.M. Herz,
J.-L. Sauvajol and R. J. Nicholas |
X.7 |
|
P235 |
Preparation of thin film by using chemically functionalized
multi-walled carbon nanotubes
Shin-ichi Ogino, Yoshinori Sato, Kenichi Motomiya, Balachandran
Jeyadevan, Kazuyuki Tohji |
X.8 |
|
P268 |
Self assembled carbon nanotubes and their applications
J. Amadou, P. Nguyen, D. Begin, M.J Ledoux and C. Pham-Huu |
X.9 |
|
P323 |
Integration of naturally short Multi Wall Carbon Nanotubes into the
anode materials of Li-ion-batteries
Vladislav A. Ryzhkov,
Alexander K. Filippov and Mikhail A. Fedorov |
X.10 |
|
P341 |
Carbon Nanotubes as Gas Sensors: Tailoring Sensing Properties by
Surface Functionalisation
G. Van Lier, C. Bittencourt,
A. Felten, E.H. Espinosa, R. Ionescu, E. Llobet, J.J. Pireaux and J.-C.
Charlier |
X.11 |
|
P342 |
Catalyzing Carbon Nanotube Coalescence
G. Van Lier, M. Endo, M.
Terrones, H. Muramatsu, T. Hayashi, Y. A. Kim, H. Terrones, M. S.
Dresselhaus, J.-C. Charlier |
X.12 |
|
P382 |
Vertical alignment of single walled carbon nanotubes with colloidal
self-assembly
Young Koan Ko, Se-Gyu Jang,
Seung-Man Yang, Hee-Tae Jung |
X.13 |
|
|
|
|
|
|
XI.
Photo-Induced Reactions in Nanotubes
(1) |
Back |
|
P52 |
Optical Ignition of Nanotubes-Doped Energetic Materials
M. Riad Manaa, Alexander R. Mitchell, Raul Garza, and Bruce Watkins |
XI.1 |
|
|
|
|
|
|
XII.
Thermal and Mechanical Properties of
Nanotubes
(16) |
Back |
|
P18 |
Carbon nanotubes: A modified model for numerical simulations of
elasticity moduli
Katya M. Simeonova, Ganka M. Milanova |
XII.1 |
|
P47 |
Molecular Dynamics
Simulations of the mechanical and electronic properties of nanotubes
G. Seifert, V. Ivanovskaya, N. Ranjan, Th. Heine |
XII.2 |
|
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.3 |
|
P99 |
Physical Properties of Continuously-Spun Fibres of Carbon Nanotubes
Marcelo Motta, Ya-Li Li, Ian
Kinloch and Alan Windle |
XII.4 |
|
P106 |
Repair of Defective Nanotubes
Osamu Suekane, Atsuko Nagataki,
Yoshikazu Nakayama |
XII.5 |
|
P112 |
Current-Induced Permanent Bend of Carbon Nanotubes
A.Nagataki, O.Suekane, X.Cai,
S.Akita and Y.Nakayama |
XII.6 |
|
P119 |
Spatially selective removal of carbon nanotubes
S. Suzuki, D. Takagi, Y. Homma, Y. Kobayashi |
XII.7 |
|
P123 |
Zeptogram detection using carbon nanotube oscillators
S. Akita, M. Nishio, S. Sawaya and Y. Nakayama |
XII.8 |
|
P135 |
Anisotropic heat transfer of carbon nanotubes: Non-Fourier heat
conduction and thermal boundary resistance with surrounding materials
Junichiro Shiomi and Shigeo Maruyama |
XII.9 |
|
P145 |
Visualization and Mechanical Manipulation of Hexagonal Phase Boron
Nitride Nanowires Using Nanomainpulator
J. H. Hsu, S. H. Chang, B. W. Lin,
H. L. Hsiao, Y. F. Chen, and T. Y. Lin |
XII.10 |
|
P225 |
Chiral Dependence of Large Deformation in Carbon Nanotubes
H. Mori, Y. Hirai, S. Akita, Y. Nakayama |
XII.11 |
|
P241 |
Mechanical and Electromechanical Properties of Suspended Polypyrrole
Nanotube
SangWook Lee, Bio Kim, DongSu
Lee, JinGyu Park, SungHo Jhang, Raluca E. Morjan, Eleanor E. B.
Campbell, Yung Woo Park |
XII.12 |
|
P253 |
Bending experiments on multiwalled carbon nanotubes
M. Ahlskog, T. Walkeajärvi, J. Lievonen, J. Ĺström,
A. Koshio, M. Yudasaka, S. Iijima |
XII.13 |
|
P282 |
Coiled Carbon Nanotubes as Self-Sensing Mechanical Resonators
A. Volodin, D. Buntinx, M.
Ahlskog, A. Fonseca, J.B. Nagy, and C. Van Haesendonck |
XII.14 |
|
P330 |
Detecting mechanical motion of suspended SWNT quantum dots through
transport measurements
B. Witkamp, S. Sapmaz, S. Etaki and H.S.J. van der Zant |
XII.15 |
|
P349 |
Mechanical Properties of Multi-walled Carbon Nanotubes (MWNTs) and
Helically Coiled Carbon Nanowires (HCNWs)
J. Gaillard, R. Ciocan, W. Wang, M.
Skove and A. M. Rao |
XII.16 |
|
P400 |
Thermal effects on optical transition energies in single wall carbon
nanotubes
S. B. Cronin, R. B. Capaz, Y.
Yin, A. Walsh, A. Stolyarov, P. Tangney, M. L. Cohen, S. G. Louie, M.S.
Ünlü, B. B. Goldberg, A. K. Swan, and M. Tinkham |
XII.17 |
|
|
|
|
|
|
XIII.
Atomic Structure of Carbon Nanotubes
(10) |
Back |
|
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.1 |
|
P27 |
Room Temperature Peierls Distortion in Small Diameter Nanotubes
G.-M. Rignanese1, D. Connétable2, J.-C. Charlier1, and X. Blase |
XIII.2 |
|
P132 |
Interlayer Spacings of Generalized Carbon Nanotubes
Mina Yoon, Jane Howe, Gary Tibbetts, and Zhenyu Zhang |
XIII.3 |
|
P147 |
Model-based computation of pair correlation functions for carbon
nanotubes
J. Koloczek, A. Brodka, A. Burian |
XIII.4 |
|
P148 |
Identification of Haeckelite nanotubes by analysis of pair correlation
function
A. Burian, J. Koloczek, A. Brodka |
XIII.5 |
|
P182 |
Mobility of native and electron-irradiation-induced point defects in
carbon nanotubes
A.V. Krasheninnikov, F.
Banhart, A.S. Foster and R.M. Nieminen |
XIII.6 |
|
P228 |
Ab initio modeling of fullerene peapods
Miroslav Rubes and O.Bludsky |
XIII.7 |
|
P236 |
Quantum-chemical calculations of Peierls distortions in (5,5) carbon
nanotube
N.A. Poklonski, E.F. Kislyakov, O.N. Bubel’, S.A. Vyrko
|
XIII.8 |
|
P242 |
Electronic structure and surface chemistry of nitrogenated MWCNTs
probed by NEXAFS spectroscopy
S. S. Roy, P. Papakonstantinou, T. I. T. Okpalugo, H. Murphy, T.
Cunning |
XIII.9 |
|
P312 |
Kohn Anomalies and Diameter Dependent Peierls Distortions in Nanotubes
S. Piscanec, M. Lazzeri, F. Mauri, A. C. Ferrari, J. Robertson |
XIII.10 |
|
|
|
|
|
|
XIV.
Transport in Nanotubes (37) |
Back |
|
P9 |
Room temperature electronic transport in as-produced and annealed CVD-produced
multi-wall carbon nanotubes
Hisashi Kajiura, Anil
Nandyala, Alexey Bezryadin |
XIV.1 |
|
P11 |
Ab initio study of the ?-stacking interaction between organic molecules
and carbon nanotubes
Florent Tournus, Sylvain
Latil and Jean-Christophe Charlier
|
XIV.2 |
|
P53 |
Ballistic Thermal and Electrical Conductance Measurements on Individual
Multi-wall Carbon Nanotubes
L. Hao, L. Brown, J. Gallop, J. Macfarlane, L. Cohen |
XIV.3 |
|
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.4 |
|
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.5 |
|
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.6 |
|
P83 |
Electromechanical instability in suspended carbon nanotubes
L. M Jonsson, L. Y. Gorelik,
R. I. Shekhter, and M. Jonson |
XIV.7 |
|
P97 |
Evidence for Luttinger-Liquid Behavior in Crossed Metallic Single-Wall
Nanotubes
B.Gao, A.Komnik, R.Egger, D.C.Glattli, and A.Bachtold |
XIV.8 |
|
P114 |
Tuning the conductance of single walled carbon nanotubes by ion
irradiation in the Anderson localization regime
C. Gómez-Navarro, J.Gómez-Herrero, P.J. de Pablo |
XIV.9 |
|
P127 |
Shot noise and electron-phonon coupling in carbon nanotubes
Fan Wu, Taku Tsuneta, Mikko Paalanen, Taihong Wang, and Pertti
Hakonen |
XIV.10 |
|
P184 |
Nature of the metallic ground state in functionalized C60-peapods
H. Rauf, H. Shiozawa, T. Pichler, M. Knupfer, J. Fink and B.
Büchner |
XIV.12 |
|
P191 |
Current instability and diamagnetism in small-diameter carbon nanotubes
J. Gonzalez |
XIV.13 |
|
P197 |
Localization of electronic states by charged metallofullerenes in
nanotube peapods
J. Gonzalez and F. Guinea |
XIV.14 |
|
P215 |
Separate Evaluation of Resistivity and Contact Resistance of
Single-Wall Carbon Nanotubes with Multiple Electrodes
F. Nihey, H. Hongo, Y. Ochiai, T. Baba |
XIV.15 |
|
P224 |
Tunnelling Conduction in Carbon Nanotubes and Networks
Alan B. Kaiser, Swee K. Goh and Viera Skakalova |
XIV.16 |
|
P238 |
A Three Terminal Carbon Nanotube Relay
S.W. Lee, M. Sveningsson, Y.W. Park, E.E.B. Campbell |
XIV.17 |
|
P249 |
Transport study of nanotube with adsorption of pi-conjugated molecules
Sylvain Latil, Stephan Roche
and Jean-Christophe Charlier |
XIV.18 |
|
P258 |
Towards Supersensitive Bolometers and Electron Coolers Based on Carbon
Nanotubes
M. Tarasov, J. Svensson, S.
Dittmer, L. Kuzmin, and E. Campbell |
XIV.19 |
|
P259 |
Random telegraph noise in carbon nanotubes
S. H. Jhang, S. W. Lee, D. S.
Lee and Y. W. Park, Y. S. Woo, S. Sahakalkan and S. Roth, E. E. B
Campbell, G. T. Kim |
XIV.20 |
|
P265 |
SINGLE WALLED CARBON NANOTUBE LOOPS INVESTIGATED BY ELECTROSTATIC FORCE
MICROSCOPY AND ELECTRICAL
TRANSPORT MEASUREMENTS
Thomas Sand Jespersen, Jesper Nygĺrd |
XIV.21 |
|
P267 |
GaAs based semiconducting heterostructures with carbon nanotube
Jonas Hauptmann, Ane Jensen, Jesper Nygĺrd, Poul Erik Lindelof |
XIV.22 |
|
P269 |
Theoretical study of the electronic transport along ion-irradiated
carbon nanotubes
B. Biel, F.J. Garcia-Vidal, F. Flores, A. Rubio, C. Gómez-Navarro, P.J.
de Pablo, and J.Gómez-Herrero |
XIV.23 |
|
P274 |
Self-assembled switches based on electroactuated nanotubes
R. Lefčvre, E. Dujardin, M.
F.Goffman, V. Derycke, J.P Bourgoin and P. Hesto |
XIV.24 |
|
P276 |
Single-walled carbon nanotube contacted to superconducting leads
K. Grove-Rasmussen, H. I.
Jřrgensen, and P.E. Lindelof |
XIV.25 |
|
P284 |
Tunneling spectroscopy of disordered multiwalled carbon nanotubes
R. Tarkiainen, M. Ahlskog, M.
Paalanen, A. Zyuzin, and P. Hakonen |
XIV.26 |
|
P309 |
Quantum dots of carbon tubes: physical properties
Andrea Latge, Claudia G. da Rocha and Leonor Chico |
XIV.27 |
|
P311 |
Electron Transport and Hot Phonons in Carbon Nanotubes
M. Lazzeri, S. Piscanec, F. Mauri, A. C. Ferrari, J. Robertson |
XIV.28 |
|
P327 |
Photon assisted tunneling in a carbon nanotube quantum dot
C. Meyer, J. Elzerman, P.
Jarillo-Herrero, S. Sapmaz, L. P. Kouwenhoven |
XIV.29 |
|
P329 |
Quantum transport in individual carbon nanotubes under high magnetic
field
B. Lassagne, B. Raquet, JM Broto,
E, Flahaut,Th. Ondarçuhu, Ch. Vieu, J. Gonzalez |
XIV.30 |
|
P331 |
Breakdown of ballistic transport in zigzag and chiral metallic
nanotubes
S. Povia, S.Reich, P. Ordejón,
A. C. Ferrari, J. Robertson |
XIV.31 |
|
P360 |
Electrical Properties of a Multi-Wall Carbon Nanotube measured along
the lateral direction
S. H. Lee and Y. W. Park |
XIV.32 |
|
P362 |
Using carbon nanotubes as nanopipettes for transport of solid material
K. Svensson, H. Olin, and E.
Olsson |
XIV.33 |
|
P374 |
Consequences on the electrical transport of metallic single-walled
carbon nanotubes due to doping with nitrogen and phosphorous
V. Krstić, P. Bernier, C. Ewels, O. Stéphan, S. Roth, M. Glerup
|
XIV.34 |
|
P376 |
Carbon Nanotube Devices for High Frequency Electronic Applications
Harish Manohara, Eric Wong, Mike
Bronikowski, Anu Kaul, Erich Schlecht, Larry Epp, Peter Siegel, and
Brian Hunt |
XIV.35 |
|
P379 |
Electrical probing and mechanical manipulation of long, suspended
single-walled nanotubes
Todd Brintlinger, Alma E. Wickenden, and Michael S. Fuhrer |
XIV.36 |
|
P380 |
Simulation of a Toroidal Carbon Nanotube as a Step Motor
Luiz A P Xavier, Jordan Del
Nero |
XIV.37 |
|
P397 |
Electronic transport of two gate-defined coupled quantum dots in carbon
nanotubes
G. B. Martins, C. A. Busser,
K. A.-Hassanieh |
XIV.38 |
|
P402 |
Contact dependence of carrier injection in carbon nanotubes: an
ab initio study
Norbert Nemec, Gianaurelio Cuniberti,
David Tománek |
XIV.39 |
|
|
|
|
|
|
XV.
Field Electron Emission
(14) |
Back |
|
P16 |
Field emission from individual MWNT
M. Sveningsson, K. Hansen, K. Svensson, E. Olsson, E.E.B Campbell |
XV.2 |
|
P26 |
Requirements to realize uniform emission all over the panel of CNT-FED
M. Okai, T. Muneyoshi, T. Yaguchi, and S. Sasaki |
XV.3 |
|
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.4 |
|
P38 |
STATISTICAL PROPERTIES AND SCREENING EFFECTS IN CNT-BASED ELECTRON
FIELD EMISSION CATHODES
G. S. Bocharov and A. V. Eletskii |
XV.5 |
|
P88 |
Directed growth of carbon nanotubes with improved field emission
properties
Mukul Kumar, Keita Kakamu, Tsugio Okazaki, Yoshinori Ando, Mineo
Hiramatsu |
XV.6 |
|
P118 |
Photoelectron Emission Microscopy of the Screen-printed Carbon
Nanotubes film
Yousuke SUZUKI, Akihiko HOSONO and Shuhei NAKATA |
XV.7 |
|
P168 |
MOCVD synthesis of carbon nanotubes on porous alumina for field
emission applications
G. Müller, A. Dangwal, D.
Lysenkov, J.J. Schneider, J. Engstler, N. Maximova, V. Ebert, P.
Strauch, J. Wolfrum, O. Deutschmann, V. Janardhanan, J. Warnatz |
XV.8 |
|
P177 |
Electron focusing effect of the field emission from the single-wall
carbon nanotube
Sang Bong Lee, Seungchul Kim and Jisoon Ihm |
XV.9 |
|
P192 |
In situ characterization of field emission from individual carbon
nanotubes in the scanning electron microscopy
Do-Hyung Kim, Chang-Duk Kim, Hur-Jae Won, Sung-Yup Lee, Hoon-Sik
Jang, Jong-UK Kim, Hyeong-Rag Lee |
XV.10 |
|
P220 |
Comparison of electric field concentration on carbon nanotubes and
carbon nanocoils
Lujun Pan, Yasumoto Konishi, Hiroyoshi Tanaka, and Yoshikazu
Nakayama |
XV.11 |
|
P281 |
Coaxial quantum cathode based on alkali metal intercalated carbon
nanotube
N.A. Poklonski, S.L. Podenok |
XV.12 |
|
P296 |
Fabrication and Performances of Nano Emissive Displays for Large Area
HDTV Applications.
B. F. Coll, K.A. Dean, E.
Howard, J. E. Jaskie, S. V. Johnson, M. R. Johnson, D. C. Jordan, S. M.
Smith, and Y. Wei, |
XV.13 |
|
P339 |
Field emission characteristics of dot-patterned multi-walled carbon
nanotubes grown by thermal chemical vapor deposition
S.J. Jung, S.H. Lee, N.S. Lee, H.J. Kim, I.T. Han, and J.M. Kim |
XV.14 |
|
|
|
|
|
|
XVI.
Optical Properties and Optoelectronics
(24) |
Back |
|
P28 |
TDDFT-MD simulation of ultrafast carrier decay in nanotubes: Dependence
on the lattice temperature
Yoshiyuki Miyamoto, Angel Rubio, and
David Tomanek |
XVI.1 |
|
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.2 |
|
P43 |
Cylindrical Waves for Pure, Intercalated, and Embedded Nanotubes
P. N. D’yachkov |
XVI.3 |
|
P70 |
Exciton dynamics in semiconducting single-walled carbon nanotubes
ILeonas
Valkunas,Ying-Zhong Ma, and Graham R. Fleming |
XVI.4 |
|
P74 |
Stress-induced shifts of photoluminescence of single-walled carbon
nanotubes
K. Arnold, F. Hennrich, O. Kiowski, S. Lebedkin, M. M. Kappes |
XVI.5 |
|
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.6 |
|
P110 |
Fast photoresponse of CVD nano-graphite films
Yu. P. Svirko, G.M. Mikheev,
R. G. Zonov, A. N. Obraztsov, A. P. Volkov, D. A. Lyashenko |
XVI.7 |
|
P159 |
Photovoltaic and photoconductor devices using SWNT in polymer films
S. Kazaoui, N. Minami, B. Nalini, Y. Kim, N. Takada and K. Hara |
XVI.8 |
|
P186 |
Electrically Conductive Amorphous Carbon Nanotube Thin Films from a
Renewable Source of Turpentine Oil
M. Rusop, Rakesh A. Afre, M.
Sharon1, T. Soga and T. Jimbo |
XVI.9 |
|
P193 |
Transient photorefractive effect in single walled carbon nanotubes
C. Gadermaier, M. Meneghetti, E. Menna, and G. Lanzani |
XVI.10 |
|
P216 |
Polarization dependence of the optical absorption properties of
single-walled carbon nanotubes
Yoichi Murakami, Erik Einarsson, Tadao Edamura, Shigeo Maruyama |
XVI.11 |
|
P221 |
Relaxation processes in Raman and photoluminescence of single-wall
carbon nanotube
R. Saito, J. Jiang, Y. Oyama, K. Sato, S. G. Chou, G. Ge.
Samsonidze, A. Jorio, M. A. Pimenta |
XVI.12 |
|
P237 |
OPTICAL AND ACOUSTIC SENSORS BASED ON CARBON NANOTUBES THIN FILMS: A
MULTI-TRANSDUCER APPROACH FOR VOCs DETECTION
M. Consales, S. Campopiano, M. Penza, P. Aversa, G. Cassano, M.
Giordano, A. Cusano |
XVI.13 |
|
P272 |
Exciton Relaxation in Single Wall Carbon Nanotube by sub-20 fs Time
Resolved Optical Spectroscopy
C. Manzoni, A. Gambetta, G. Lanzani, G. Cerullo, M. Meneghetti and E.
Menna |
XVI.14 |
|
P286 |
Photoluminescence from SWNTs Suspended on Pillars in Free Space
P. Finnie, Y. Homma, J. Lefebvre |
XVI.15 |
|
P306 |
Exciton binding energy in carbon nanotubes
J. Maultzsch, R. Pomraenke, S. Reich, C. Lienau, and C. Thomsen |
XVI.16 |
|
P307 |
High optical-quality nanotube polymer composites for photonic devices
applications
V. Scardaci, M. A. Reilly, A.
G. Rozhin, M. Shaffer, A. C. Ferrari, S. Reich, I. H. White, J.
Robertson, W. I. Milne |
XVI.17 |
|
P335 |
Micro-photoluminescence spectroscopy of individual single-walled carbon
nanotubes
Yutaka Ohno, Shigeru
Kishimoto, and Takashi Mizutani |
XVI.18 |
|
P336 |
Carbon Nanotube- Polyvinylalcohol Nanocomposite Film Devices:
Application for Femtosecond Fiber Laser Mode-Locker
Youichi Sakakibara, Aleksey G. Rozhin, Madoka Tokumoto, Yohji Achiba,
and Hiromichi Kataura |
XVI.19 |
|
P348 |
Optical transitions and phonon-related processes in different samples
of carbon nanotubes using resonance Raman and photoluminescence
excitation spectroscopies
M. A. Pimenta, A. Jorio, F.
Plentz, C. Fantini, H. B. Ribeiro, R. Saito, M. S. Dresselhaus, M. S.
Strano, and D. Resasco |
XVI.20 |
|
P351 |
Photoluminescence and resonant inelastic light scattering from double
wall carbon nanotubes
A. Swan, Y. Yin , A. Walsh, R.R
Bacsa, P. Puech, E. Flahaut, A. Peignet, Ch. Laurent, B. Goldberg, and
W. S. Bacsa |
XVI.21 |
|
P358 |
Polarized-Photoluminescence Excitation Spectroscopy of Aligned
Single-Walled Carbon Nanotubes
Yuhei Miyauchi, Mototeru Oba, Shohei Chiashi, Shigeo Maruyama |
XVI.22 |
|
P361 |
Anisotropic Saturable Absorption of Single Wall Carbon Nanotubes
Aligned in Polyvinyl Alcohol
A.G. Rozhin, Y. Sakakibara,
H. Kataura, S. Matsuzaki, K. Ishida, Y. Achiba, and M. Tokumoto |
XVI.23 |
|
P373 |
Optical spectrum of carbon nanotubes under electric fields
M. Pacheco, C.G. Rocha, Z. Barticevic, A. Latge |
XVI.24 |
|
P399 |
Chiral Selectivity in the Charge Transfer Bleaching of Single Walled
Carbon Nanotube Spectra
Michael J. O'Connell, Ezra E.
Eibergen, and Stephen K. Doorn |
XVI.25 |
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XVII.
Transport in Complex Nanostructures
(4) |
Back |
|
P6 |
COMPUTER MODELING OF DIFFERENTIAL CONDUCTANCE OF SYMMETRY CONNECTED
“ARMCHAIR-ZIGZAG” HETEROJUNCTIONS
O.V. Ogloblya, G.N. Kuznetsova |
XVII.1 |
|
P317 |
Carbon Nanotubes Embedded within Polymer Macro-Tubes
Ali Eftekhari, Parvaneh Jafarkhani, Irana Ahmadi, Mohammad
Pazouki |
XVII.2 |
|
P346 |
Fano-like line shapes in STM Response of a Luttinger Liquid with a
Kondo Impurity
Paata Kakashvili and Henrik
Johannesson |
XVII.3 |
|
P386 |
Diffusion through Flower-Like Bundle of Manganese Oxide Nanofibers
Ali Eftekhari, Mehran Solati Hashjin, Parvaneh Jafarkhani |
XVII.4 |
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XVIII.
Electron-Phonon Coupling in Complex Nanostructures (2) |
Back |
|
P161 |
Family pattern in electron-phonon matrix elements and relaxation time
in carbon nanotubes
J. Jiang, R. Saito, Y. Oyama, K. Sato, A. Grüneis, S. G. Chou,
Ge. G. Samsonidze, A. Jorio, F. Triozon, S. Roch, G. Dresselhasu, M. S.
Dresselhaus |
XVIII.1 |
|
P310 |
Experimental Electron Phonon Coupling in Graphite and Nanotubes
A. C. Ferrari, M. Lazzeri, F. Mauri, S. Piscanec, J. Robertson |
XVIII.2 |
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XIX.
Nanotube-Based
Transistors (10) |
Back |
|
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.1 |
|
P90 |
Metal-semiconductor transition in single-wall carbon nanotubes induced
by low energy electron irradiation
A. Vijayaraghavan, K. Kanzaki,
S. Suzuki, Y. Kobayashi, S. Kar, P. M. Ajayan |
XIX.2 |
|
P102 |
Air-stable n-type single-walled carbon nanotubes with alkali-metal
encapsulation performed by plasma ion irradiation
T. Izumida, T. Hirata, R. Hatakeyama, Y. Neo, H. Mimura, K.
Omote, and Y. Kasama |
XIX.3 |
|
P107 |
Ultrasensitive Real-time DNA Sensors Based on Carbon Nanotube
Field-Effect Transistors Modified by Peptide Nucleic Acid
Kenzo Maehashi, Kazuhiko
Matsumoto, Kagan Kerman, Yuzuru Takamura and Eiichi Tamiya |
XIX.4 |
|
P111 |
Carbon Nanotube and Silicon Nanowire Biochemical Sensors
Brian Hunt, Anita Fisher,
Eric Wong, Mike Bronikowski |
XIX.5 |
|
P129 |
Conductivity control of single-walled carbon naotubes by electron beam
exposure
K.Kanzaki, A.Vijayaraghavan,
S.Suzuki, Y.Kobayashi, H.Inokawa, Y.Ono |
XIX.6 |
|
P234 |
Fabricatin of Crossed Semiconducting and Metallic Nanotubes: CNT-gated
CNT-FET
D.S. Lee, J. Svensson, S.W. Lee, Y.W. Park, E.E.B. Campbell |
XIX.7 |
|
P260 |
1D-Carbon nanotues on 2D-semiconductor
Yun-Hi Lee, Je-Min Yoo,
Jung-Ah Lee, B. K. Ju |
XIX.8 |
|
P273 |
Chemical and optical control of self-assembled nanotube transistor
performances
Julien Borghetti, Stéphane Auvray, Vincent Derycke, Marcelo
Goffman, Laurence Goux, Pascale Chenevier, Arianna Filoramo and
Jean-Philippe Bourgoin |
XIX.9 |
|
P355 |
Surface passivation of carbon nanotube field-effect transistors
Hideki Shimauchi, Yutaka Ohno, Shigeru Kishimoto, and Takashi
Mizutani |
XIX.10 |
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XX.
Magneto-Transport and Magnetism
(5) |
Back |
|
P69 |
Nanomagnetism in Fe filled carbon nanotubes
IA.
Leonhardt, M. Ritschel, D. Elefant, N. Mattern, K. Biedermann, B.
Büchner |
XX.1 |
|
P85 |
Magnetoresistance of Disordered Carbon Nanotubes
Norbert Nemec, Gianaurelio
Cuniberti |
XX.2 |
|
P136 |
Synthesis and characterization of magnetic-metals encapsulated
single-walled carbon nanotubes
Y. F. Li, R. Hatakeyama, T.
Hirata, T. Kato, T. Okada, T. Kaneko, and K. Tohji |
XX.3 |
|
P288 |
Band structure and quantum interference in multiwall carbon nanotubes
B. Stojetz, C. Miko, F. Triozon, S.
Roche, L. Forro, and C. Strunk |
XX.4 |
|
P333 |
Magnetic properties of an assembly of magnetic nanoparticles
encapsulated in carbon nanotubes : experimental results and Monte-Carlo
calculations
A. Senger, C.S. Cojocaru, O.
Ersen, S. Colis, H. Bulou, F. Le Normand |
XX.5 |
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XXI.
General Studies of Carbon Nanostructures
(31) |
Back |
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P5 |
THEORETICAL AND
EXPERIMENTAL STUDIES OF CARBON NANOTUBES: A REVIEW
Katya M.
Simeonova, Ganka M. Milanova |
XXI.2 |
|
P13 |
Sorting carbon nanotubes
via dielectrophoresis
R. Krupke, F. Hennrich |
XXI.3 |
|
P15 |
Atomic scale modelization
of the nucleation of C-SWNTtowards atomic scale modelization
H. Amara,C. Bichara,J.-P. Gaspard and F. Ducastelle |
XXI.4 |
|
P22 |
An alternate mathematical model for single-wall carbon nanotubes
Nicolae Cotfas |
XXI.5 |
|
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.6 |
|
P44 |
A theoretical study of
curvature effects in defective nanotubes
Johan M. Carlsson and Matthias Scheffler |
XXI.7 |
|
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.8 |
|
P96 |
Influence of monoatomics steps of nickel during the nucleation of C-SWNTs
H. Amara,C. Bichara,J.-P. Gaspard and F. Ducastelle |
XXI.9 |
|
P98 |
Ion irradiation induced B/N implantation onto carbon nanotubes
J. Kotakoski, A. V. Krasheninnikov, Y. Ma, A. S. Foster, K. Nordlund,
and R. M. Nieminen |
XXI.10 |
|
P103 |
The Adsorption of Hazardous Organic Compounds onto Carbon Nanotubes
Synthesized by Thermal Pyrolysis
N. J. Jeong, S. J. Lee, Y. S. Seo |
XXI.11 |
|
P116 |
Location Control of the Growth of Carbon Nanotubes using Focused Ion
Beam (FIB)
E. S. Sadki, S. Ooi, and K.
Hirata |
XXI.12 |
|
P130 |
Novel actuator with single-wall carbon nanotubes as actuating material
T. Koker, U. Gengenbach, G. Bretthauer |
XXI.13 |
|
P131 |
Production and investigation of composition, structure and properties
of fullerene-like structures' metal derivatives
K.B.Zhogova, B.
S.Kaverin, A.G.Zvenigiridskii, A. M.Ob`edkov, G.A.Domrachev, S.
N.Titova, A.I.Kirillov, М.А.Lopatin, M.V.Tatsenko, Yu.V.Ignat’ev,
C.N.Kartanov
|
XXI.14 |
|
P160 |
Molecular Dynamic Simulations of Single Wall Carbon Nanotube CVD Growth
Ali Izadi-Najafabadi, Walter
R. P. Scott, and John D. Madden |
XXI.15 |
|
P164 |
In situ characterization of field emission from individual carbon
nanotubes in the scanning electron microscopy
Do-Hyung Kim, Chang-Duk Kim, Hur-Jae Won, Hoon-Sik Jang, Jong-UK
Kim, Hyeong-Rag Lee |
XXI.16 |
|
P175 |
Gas Phase Electrophoresis of Carbon Nanotubes grown in Low Pressure CVD
process
D.V. Smovzh, A.V. Maltsev, O.A. Nerushev |
XXI.17 |
|
P178 |
Synthesis of silicon carbide nanomaterials using multi-walled carbon
nanotubes as templates
V.G. Sevastyanov, A.V. Antipov, V.I.Perepechenykh, B.I.Petrov,
G.A.Domrachev, A.M. Ob'edkov, B.S. Kaverin, A.A.Zaitsev, K.B.Zhogova |
XXI.18 |
|
P187 |
NMR INVESTIGATIONS ON ALKALI INTERCALATED CARBON NANOTUBES
M. Schmid, C. Goze-Bac , M. Mehring, S. Roth |
XXI.19 |
|
P188 |
Electrostatics of individual SWNTs investigated by EFM
M. Paillet, P. Poncharal and
A. Zahab |
XXI.20 |
|
P207 |
Complement activation and protein adsorption by carbon nanotubes
Carolina Salvador-Morales,
Emmanuel Flahaut, Edith Sim, Jeremy Sloan, Malcolm L.H.Green, Robert
B.Sim |
XXI.21 |
|
P218 |
SWNT Fluorescence Spectrum Changes Induced by Light-Assisted Oxidation
Minfang Zhang, Masako Yudasaka, Sumio Iijima |
XXI.22 |
|
P248 |
LCVD of Carbon Nanotubes, Catalytically Grown on Iron-Based
Nanostructures Prepared by Laser Pyrolysis
I. Morjan, R. Alexandrescu,
L. Albu, I. Soare, F. Dumitrache, I. Sandu, M. Scarisoreanu, I. Voicu,
V. Ciupina, R. E. Morjan |
XXI.23 |
|
P255 |
Low energy instabilities of small-radius zig-zag nanotubes
E. Perfetto and J. Gonzalez |
XXI.24 |
|
P278 |
Photoemission of insulator-coated carbon nanotubes
SeGi Yu, Jungna Heo, Jeonghee Lee,
Taewon Jeong, HyungSook Lee, and J.M. Kim |
XXI.25 |
|
P332 |
Local Modification and Characterization of the Electronic Structure of
Carbon Nanotubes
Gilles Buchs |
XXI.26 |
|
P350 |
Determination of Nanotube Density by Gradient Sedimentation
Qi Lu, Gayatri Keskar, Razvan Ciocan,
Lyndon L. Larcom and A. M. Rao |
XXI.27 |
|
P353 |
Electrical Resistance and Contact Properties of Carbon Nanotube Coated
Surfaces
Onnik Yaglioglu, Anastasios John Hart, Alexander H. Slocum |
XXI.28 |
|
P363 |
Cross sectional studies of iron filled carbon nanotubes
L. de Knoop, L. Eurenius, H. Pettersson, K. Svensson, and E. Olsson |
XXI.29 |
|
P385 |
Fractal Analysis of Carbon Nanotubes by Means of Electrochemical
Methods
Ali Eftekhari, Fathollah Moztarzadeh, Parvaneh Jafarkhani |
XXI.30 |
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THE END |
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