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Preface | xiii | |
Table of Previous Kirchberg Winterschools | xiv | |
Organizer, Patronage, Supporters, and Sponsors | xv | |
I. | Fullerene Materials | |
The Jahn-Teller Distortion of [characters not reproducible] as Determined by ESR | 3 | |
Origin of Intrinsic Luminescence from C[subscript 60] Single Crystals | 7 | |
Polymeric Fullerenes: From C[subscript 60] to C[subscript 70] | 12 | |
In situ ATR-FTIR Spectroelectrochemical Comparison of Pristine and Polymerized C[subscript 60] Films | 16 | |
Structure of Phototransformed C[subscript 60] Revisited | 20 | |
Atomic Force Microscopy Analysis of Nucleation and Diffusion of C[subscript 60] on Hot Substrates | 24 | |
NMR Study of C[subscript 60].C[subscript 7]H[subscript 8] by Cross Polarization and Polarization Inversion of Rare-Spin Magnetization | 28 | |
Is the Ground State of A[subscript 1]C[subscript 60] (A=Rb, Cs) Antiferromagnetic? | 32 | |
Comparative Study of Ferromagnetic and Non-Ferromagnetic Modifications of TDAE-C[subscript 60] | 37 | |
Spin-Singlets in Metallic Cubic Quenched CsC[subscript 60] | 42 | |
Distinct Polymer Chain Orientations in KC[subscript 60] and RbC[subscript 60] | 47 | |
Low Symmetry Structures in the Li-Rb-C[subscript 60] Phase Field | 52 | |
Conduction Electron Spin Resonance in the Superconducting State of K[subscript 3]C[subscript 60] | 56 | |
Orientational Ordering of Alkali Ammonia Clusters in Ammoniated Alkali Fullerides (NH[subscript 3])K[subscript 3]C[subscript 60] and (ND[subscript 3])K[subscript 3]C[subscript 60] | 60 | |
Electronic Properties of the Na[subscript 2]AC[subscript 60] Family (A=K, Rb, Cs) | 64 | |
Structure and Physical Properties of Cs[subscript 3]C[subscript 60] under Ambient and High Pressures | 69 | |
Structural Studies of Superconducting Li[subscript 3]CsC[subscript 60] | 73 | |
Structure of Ca[subscript 4](NH[subscript 3])C[subscript 60] | 78 | |
II. | Endohedral Fullerenes | |
Atoms in Molecular Cages | 85 | |
IR and Raman Analysis of Diatomic Encapsulates in Fullerene Cages | 90 | |
Endohedral Fullerenes with Lower Carbon Cage Sizes | 95 | |
Atoms in Fullerene Traps as Probes for Local Fields | 101 | |
Cerium Metallofullernes | 106 | |
The Electronic Properties of Charged N@C[subscript 60] | 111 | |
Structural and Magnetic Studies of the Endohedral Metallofullerene Ce@C[subscript 82] | 115 | |
Dynamic Motion of Ce@C[subscript 80]--Comparison Study with Ce@C[subscript 82] | 120 | |
Structural Phase Transitions of Endohedral Metallofullerene La@C[subscript 82] Studied by Single Crystal X-ray Diffraction | ||
Endohedral Rare Earth Fullerenes--Electronic and Dynamic Properties | 128 | |
The Electronic Structure of Mono- and Dimetallofullerenes by Photoemission Spectroscopy | 132 | |
A Raman Study of Empty C[subscript 84] Isomers D[subscript 2] and D[subscript 2d] and Three Isomers of Sc[subscript 2]@C[subscript 84] | 136 | |
A Vibrational Spectroscopic Structure Analysis of Eu@C[subscript 74] | 140 | |
Light-Induced Release of Nitrogen from Fullerene Cages | 144 | |
Atomic Hydrogen in the Si[subscript 8]O[subscript 12] Cage | 148 | |
III. | New Nanostructured Materials | |
Oligomer-Fullerene Dyads and Traids as Model Compounds for Bulk-Heterojunction TV Cells | 155 | |
Photo-Induced Charge-Transfer Processes in Fullerene-Containing Dyad and Triad Molecules | 161 | |
C[subscript 59]N on Silicon Surfaces: Monomers, Dimers, and Multilayers | 165 | |
Homonclear Bonds in BN Clusters? | 170 | |
Synthesis and Characterisation of Organometallic Compounds of Fullerene Derivatives | 175 | |
Non-IPR Fullerences: C[subscript 36] and C[subscript 72] | 179 | |
Effect of Alkali Doping on the Structural Stability of Solid C[subscript 36] | 183 | |
Isolation and Characterisation of [84]Fullerene Isomers | 187 | |
New Three-Component Systems Based on C[subscript 60] | 191 | |
Cluster-Assembled Amorphous Carbon Nano-Foam Synthesized by High-Pulse-Rate Laser Ablation | 196 | |
Self-Formation of Nanostructures from hydrated Aggregates and Nanocrystals of (C[subscript 60])[subscript n] Molecules on the Liquid Crystal Layer | 200 | |
Chains of Carbon Nanoparticles from the Interaction of Fullerenes with Thin Metal Films | 205 | |
Electrochemical Preparation of Carbon Chains and Nanoparticles | 209 | |
Preparation of Carbyne-Like Films by Dehydrochlorination of Poly(Vinylidene Chloride) | 213 | |
X-Ray Emission Spectroscopy Study of C[subscript 2]F Intercalated with Benzene | 217 | |
Vanadium Pentoxide Nanowires | 221 | |
Production and Investigation of Vanadium Pentoxide (V[subscript 2]O[subscript 5]) Nanostructures Grown in IR Laser-Field | 226 | |
Perfect Nanospheres from Polymerized Lipofullerenes | 231 | |
IV. | Preparation and Characterization of Carbon Nanotubes | |
A Continuous Wave CO[subscript 2] Laser Reactor for Nanotubes Synthesis | ||
Synthesis, Purification, and Characterisation of Multi- and Single-Wall Nanotubes Produced by Catalytic Decomposition of Hydrocarbons | 241 | |
Production of Bundles of Single Walled Nanotubes by a Simple Laser Ablation Technique | 245 | |
Metal Mixtures Catalysed Carbon Nanotube Synthesis | 249 | |
Solar Synthesis of Single Wall Carbon Naontubes | 254 | |
Carbon Arc Plasma Doped with Fe and Co/Ni: Spectroscopy and Formation of Carbon Nanostructures | 258 | |
Large Arrays of Well-Aligned Carbon Naontubes | 263 | |
Sulfur: The Key for Filling Carbon Naotubes with Metals | 268 | |
Alkali-Metal Intercalation in Carbon Nanotubes | 273 | |
About the Composition of Single Wall Carbon Nanotube Bundles: An Analysis from Optical, Raman, and IR Experiments | 278 | |
Polymers of Single Wall Nanotubes: Geometry, Diffraction Pattern, and Electronic Spectrum Modelling | 284 | |
The Characterization of SWNT Containing Soot by Optical Spectroscopy | 288 | |
Evolution of Carbon Single-Walled Nanotubes Diameter as a Function of the Synthesis Parameters: A Raman Study | 292 | |
V. | Porperties of Carbon Nanotubes | |
Neutron Scattering Studies of Carbon Nanotubes | 299 | |
Statistical Analysis of the Electronic Structure of Single Wall Carbon Nanotubes in Buckypaper | 304 | |
Characterization of Single Wall Carbon Nanotubes by Scanning Tunneling and Scanning Force Microscopy | 308 | |
STM Investigation of Single-Wall Carbon Nanotubes at Room Temperature | 313 | |
Scanning Tunneling Microscopy of Carbon Nantubes: Simulation and Interpretation | 319 | |
The Use of Computer Simulation to Investigate Tip Shape and Point Contact Effects During Scanning Tunneling Microscopy of Supported Nanostructures | 323 | |
Optical Absorption and Resonance Raman Scattering of Carbon Nanotubes | 328 | |
In situ Raman Investigations of Single-Wall Carbon Nanotubes Pressurized in Diamond Anvil Cell | 333 | |
Surface Enhanced Raman Spectroscopy of Single Wall Carbon Nanotubes | 338 | |
Disorder Effects on Density of States and Electronic Conductance in Carbon Nanotubes | 342 | |
Electronic Structure Studies of Carbon Nanostructures Using Electron Energy-Loss Spectroscopy in Transmission | 346 | |
The Effects of Dimensionality on the [pi]-Plasmon-Dispersion in Multi-Wall Carbon Nanotubes | 351 | |
Molecular Mechanics Study of Carbon Nanotubes | 355 | |
Knock-on Damage in Single Wall Carbon Nanotubes by Electron Irradiation | 360 | |
Sliding, Stretching, and Tapering: Recent Structural Results for Carbon Nanotubes | 364 | |
VI. | Electronics of Molecular Nanostructures | |
Temperature Dependence of the Resistivity of Individual Multi-Walled Pure/Boron Doped Carbon Nanotubes at Elevated Temperatures | 371 | |
Temperature Dependent Resistivity of Large Ropes of Single-Walled Carbon Nanotubes | 375 | |
Manipulation of the Transport Properties of Single-Walled Nanotubes by Alkali Intercalation and Local Charge Transfer | 379 | |
Femtosecond Time-Resolved Photoemission as a Probe of Electronic Transport in Single Wall Carbon Nanotubes | 384 | |
One-Dimensional Transport in Bundles of Single-Walled Carbon Nanotubes | 388 | |
Electrical Transport in Carbon Nanotube Rings: Coherence and Localization | 393 | |
Quantentransport in Multi-Wall Carbon Nanotubes | 399 | |
Electron Interference Effect in Multi-Wall Carbon Nanotubes | 403 | |
Charge Transport in Carbon Nanotube Transistors | 407 | |
Luttinger Liquid Behavior in Single-Wall Nanotubes | 411 | |
Electric Resistivity and Magnetoresistance of Some Superhard and Ultrahard Fullerites in the Range 300-2K | 416 | |
Electron Transport Through a Gold-Bisthiolterthiophene-Gold Junction | 421 | |
VII. | Applications | |
Capacitance Properties of Carbon Nanotubes | 429 | |
Electron Field Emission from Carbon | 433 | |
Field Emission from Carbon Nanotubes and Its Application to Electron Sources | 439 | |
Thin Film Cold Cathode from Nanostructured Carbon | 444 | |
Field Emission Properties of Carbon Nanowires from ab initio Calculations | 448 | |
Electrocatalytic Properties of the C[subscript 60], C[subscript 70], C[subscript 76], C[subscript 78], and C[subscript 84] Fullerene Anions | 452 | |
Carbon Nanotubes and Gas Adsorption | 456 | |
Electrochemical Storage of Hydrogen in Carbon Single Wall Nanotubes | 462 | |
Characterization of Multi-Walled Carbon Nanotubes-PMMA Composites | 466 | |
Functionalisation of Carbon Nanotubes for Composites | 470 | |
Chemical Functionalization of Carbon Nanotubes | 474 | |
Electronic Structures and Applications of Carbon Nanotubes | 478 | |
Combinatorial Chemistry Approach to Development of Molecular Plastic Solar Cells | 483 | |
Charge Transfer and Relaxation Dynamics of Excited Electronic States in Organic Photoreceptor Materials With and Without C[subscript 60] | 487 | |
Optical Limiting Materials Based on Fullerene Derivatives | 492 | |
SPM Investigation of Superhard Carbon Prepared from C[subscript 60] Fullerene | 497 | |
Raman Spectrum and Stability of (C[subscript 59]N)[subscript 2] | 501 | |
Author Index | 507 |
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