Chapter 1: Formation
of Nanofibers and Nanotubes Production
1.1 “Nanofiber Technology:
Bridging the Gap between the Nano and Macro World”
F. Ko…………………………………………………………………………….1
1.2 “Mechanism
of Carbon Filaments and Nanotubes Formation”
V. Kuznetsov……………………………………………………………….........19
1.3 ‘CCVD Synthesis
of Single- and Double-walled Carbon Nanotubes”
E. Flahaut A. Peigney and Ch. Laurent……………………………………...........35
1.4 “Precise Semiconductor,
Metal and Hybrid Nanotubes, Nanobelts
and Nanofibers”
V. Prinz……………………………………………………………………….....47
1.5 “Carbon Nanopipettes:
Synthesis, Characterization, Properties”
R. C. Mani, M. K. Sunkara , X. Li,and K. Rajan……..……….......………..........65
1.6 “Influence
of PLD and CVD Experimental Growth Conditions on Carbon
Film Nanostructure Evolution”
E. Capelli, S. Orlando, G. Mattei, C. Sciletta, , F.Corticelli,
and P. Ascarelli… .…75
1.7 “Controlled
Growth and Networking of Tapered Carbon Tube Morphologies”
G. Bhimarasetti, M. K. Sunkara, Uschi Graham, C.Suh and K. Rajan.......….........83
1.8 “Carbon Filament
Rope Formation”
A. N. Usoltseva, V. L. Kuznetsov, N. A. Rudina, M. Yu. Alekseev
and L. V. Lutsev…........................................................................................…...91
1.9 “Electrospinning
of Low Surface Energy-Quaternary Ammonium Salt
Containing Polymers and their Antibacterial Activity”
K. Acatay, E. Simsek, M. Akel and Y. Z. Menceloglu………………………......97
1.10 “On the Mechanism of Single-wall Carbon Nanotube Nucleation
in the Arc
and Laser Processes: Why Bimetallic Catalysts Have High Efficiency”
A.V. Krestinin, M.B. Kislov and A.G. Ryabenko..…............................…….......107
1.11 “Production
of Boron Nitride by Carbothermal and Mechanochemical
Methods and Nanotube Formation”
H. E. Camurlu, A. Aydogdu, Y. Topkaya and N. Sevinc…….......………..........115
1.12 “Structure
and Properties of Silicon Carbide Fibers Depending on Their
Synthesis Conditions”
K. Vyshnyakova and L.N. Perselentseva…………………………………........121
Chapter 2. Physics and Chemistry of Nanofibers
2.1 “Selective Oxidation
of HipCO Single Wall Carbon Nanotubes”
S.N. Bokova, E.D. Obraztsova, A.V. Osadchy, H. Kuzmany,
U. Dettlaff-Weglikowska, S.Roth……………………………………………..129
2.2 “Oxygenation of Carbon
Nanotubes”
Sefa Dag, S. Çiraci, O. Gülseren, and T. Yildirim…………….………….........135
2.3 “Electronic
Structure of Fluorinated Carbon Nanotubes’’
L.G. Bulusheva, A.V. Okotrub, T.A. Duda, E.D. Obraztsova,
A.L. Chuvilin, E.M. Pazhetnov, A.I. Boronin and U. Detlaff-Wegikowska….....143
2.4 “Titanium Coverage
on Single-Wall Carbon Nanotubes: Molecular
Dynamics Simulations”
H. Oymak and S. Erkoc...…………………………………………………....151
2.5 “Using Supercritical
Water Manipulates the Structures of Porous Materials
and Nano-scale Particles”
J.C. Li, R. Aswani, X.L. Gao, S. King and A.I. Kolesnikov………
……….....157
2.6 “Functionalization
of Carbon Nanotubes: Deformations, Coating, Contacts
and Device Applications”
O. Gulseren.……………………………………………………………
..….163
2.7 "Towards Fiber-Based
Micro and Nanofluidics"
A. Neimark.....................................................................................................173
Chapter 3. Simulation and Modeling
3.1 “Theoretical
Models for Nanodevices and Nanomagnets Based
on Carbon Nanotubes”
S. Çiraci,O. Gulseren, S. Dag, E. Durgun and T. Yildirim……….……............181
3.2 “Intimate Relationship between Structural Deformation
and Properties
of Singe-Walled Carbon Nanotubes and its Hydrogenated Derivatives”
T. Yildirim, O. Gulseren and S. Ciraci …………………………………….....197
3.3 “Geometry
Effect on One-Electron Density of States of Boron
Nitride Nanotubes”
A. Osadchy and E. D. Obraztsova.... ………………………….…………....211
3.4 “Stability
of Carbon Nanocapsules: Molecular-Dynamics Simulations”
O.B. Malcioglu, V. Tanriverdi, A. Yimaz and S. Erkoç………………….......217
3.5 “Carbon Nanotube
Multi-terminal Junctions: Structures, Properties,
Synthesis and Applications”
L.A.Chernozatonskii and I.V. Ponomarev………………....………………..223
3.6 “Simulation of
Carbon Nanotube Junction Formations”
E. Tasci, O.B. Malcioglu and S. Erkoc……...………………………….…..235
3.7 “Stability of Carbon Nanotori”
E. Yazgan, E. Tasçi, O.B. Malcioglu and S. Erkoc..………………….….....239
Chapter 4. Applications
4.1 Biomedical Applications
4.1.1 “Use
of High-surface Nanofibrous Materials in Medicine”
S.V. Mikhalovsky, L.I. Mikhalovska, V.G. Nikolaev, V.I Chernyshev,
V.V.Sarnatskaya, K. Bardakhivskaya, A.V. Nikolaev and L.A. akhno……….243
4.1.2 “Nanoscale
Engineering of Surfaces. Functionalized Nanoparticles
As Versatile Tools for the Introduction of Biomimetics on Surfaces”
V. P. Shastri , A.M. Lipski, J.C. Sy, W. Znidarsic, H. Choi and
I-W. Chen......255
4.1.3 “Catalytic
Filamentous Carbons and CFC-Coated Ceramics for
Immobilization of Biologically Active Substances”
G.Kovalenko, D.G. Kuvshinov, O.V.Komova, A.V. Simakov and N.A.
Rudina..263
4.1.4 “Hybrid
three terminal devices based on modified DNA bases and
Metalloprotein”
R. Rinaldi, G. Maruccio, A. Bramanti, P. Visconti, P.P. Pompa,
A. Biasco and
R. Cingolani.......................................................................................................269
4.1.5 “Polyphosphazene
Nanofibers for Biomedical Applications:
Preliminary Studies”
C.T. Laurencin and L.S. Nair………………………………...………….........281
4.1.6 “Bionanocomposites
Based on Nanocarbon Materials for Culture
Cells Media”
L.Stamatin and I. Stamatin………………………………………………........301
4.2 Nanotube-Based Devices
4.2.1 “Contact-induced
Properties of Semiconducting Nanowires and
Their Local Gating”
E. Gallo, A. Anwar and B. Nabet……………………………………….........311
4.2.2 “Bespoke Carbon
Nanotube Devices and Structures”
D. C. Cox, R.D. Forrest, P.R. Smith and S.R.P. Silva………………......…....321
4.3 Electronic Applications of Nanotubes and Nanofibers
4.3.1 “Vacuum Electronic
Applications of Nano-Carbon Materials”
A. Obraztsov…………………………………………………………............327
4.3.2 “MoS2 Nanotubes
as Promising Field Emitter Material”
A. Mrzel, V. Nemanic, M. Umer, B. Zajec, J. Pahor, M. Remskar,
E. Klein and D. Mihailovic.……………………………………………...........339
4.3.3 “X-ray
Spectroscopy Characterization of Carbon Nanotubes”
A.V. Okotrub, A.V. Guselnikov and L.G. Bulusheva……………………........347
4.3.4 “Highly Functional
Magnetic Nanowires Through Eletrodeposition”
N.Sulitanu………………………………………………….…….......….......361
4.3.5 “Use of Atomic
Force Microscope for Nucleic Acids Sensors”
Ü. Dogutan, E. Piþkin and C. Koçum………………………………….........375
4.3.6 “Electrophoretic
Deposition of ZnO Thin Film in Aqueous Media
A. Dogan, E. Suvaci, G. Gunkaya and E. Uzgur……………………….........383
4.3.7 “Synthesis
and Optical Spectroscopy of Single-Wall Carbon
Nanotubes”
E.D. Obraztsova, M. Fujii, S. Hayashi, A.S. Lobach, I.I. Vlasov
A.V. Khomich, V. Yu. Timoshenko, W. Wenseleers, E.Goovaerts…..........389
4.4 Nanofluidics
4.4.1 “Aqueous
Fluids in Carbon Nanotubes: Assisting the Understanding
of Fluid Behavior at the Nanoscale”
A. Yazicioglu, C.M. Megaridis, N. Naguib, H.Ye and Y. Gogotsi………....399
4.4.2
“Dielectrophoretic Assembly and Integration of Nanofluidic
Devices”
M. Reigelman, H. Liu, S. Evoy and H. H. Bau…..………………………...407
4.4.3 “Opening Multiwall
Carbon Nanotubes with Electron Beam”
H. Ye, N. Nabuib, Y. Gogotsi…..……………………………...…….......415
4.5 Composites
4.5.1 “Molecule
Derived Nanomaterials: Chemical Concepts for Composition,
Morphology and Particle Size Control Composites”
S.Mathur.………………………………………………………………..423
4.5.2 “Nanosized Fine
Particles and Fibers as Reinforcing Materials
Synthesized from Sepiolite”
AO.Kurt………………………………………………………………....441
4.5.3 “Thermal
Conductivity of Particle Reinforced Polymer Composites”
I.H. Tavman……………………………………………………………...449
4.5.4 “Nano particles
and Nano Cavities from Conjugated Polymers”
H. Wang, T. Lin and A.Kaynak…………………………………………..457
Chapter 5. Nanomaterials, Nanoparticles, and Nanostructures
5.1 “Nanomaterials
for Photonic Applications”
R. Cingolani……………………………………………………………...467
5.2 “Magnetic
Nanoscale Particles as Sorbents for Removal of Heavy
Metal Ions”
M. Vaclavikova, S. Jakabsky and S. Hredzak…………………………....479
5.3 “Comparison
of a Structural and Dynamical Properties of Liquid Pd, Ag
and the Binary Alloys Modeled by Sutton-Chen”
H. H. Kart, M. Uludoðan, Tahir Çaðýn , and
M. Tomak………………....485
5.4 “Hydrothermally
Synthesized Nanocrystalline Mn-Zn Ferrites: Synthesis
and Characterization”
D.N. Bakoyannakis, E.A. Deliyanni, K.A. Matis, L. Nalbandian
and V.T. Zaspalis................................................................................…..493
5.5 “Deposition
of Sub-micron Ni Droplets on Glass Substrates by a
Combination of Plasma Assisted CVD and PVD”
H. Akbulut, C.Bindal and O.T.Nail……………………………………....499
5.6 “Formation
of Fine-Dispersion Fibrous Multilayer Oxide Coatings of
Nano-Dimension Thickness On the Surface of Electroconductive
Si3N4-TiN and Si3N4-TiB2 Ceramics Under Their Electrochemical
Polarization”
V. Lavrenko, M.Desmaison-Brut, V.A.Shvets and J. Desmaiso………….507
5.7 “Formation
of High Temperature Nanofibrous Coating Structure
under Magnetron Sputtering of Al-TiCrB2”
A.D.Panasyuk, I.A.Podchernyaeva and V.A.Lavrenko……………….....517
5.8 “Patterning Sub-100
nm Features for Sub-Micron Devices”
H. Kavak………………………………………………………………525
5.9 "Solid and
Liquid Properties of Pd-Ni Alloys Using Quantum Sutton-
Chen Many Body Potential"
S.O.Kart, M.Uludogan, T.Cagin and M.Tomak......................................531
Subject Index………………………………………………………….537
