| Introduction | |
| C[subscript 60]: Buckminsterfullerene | p. 8 |
| Electronic Structure and Bonding in Icosahedral C[subscript 60] | p. 10 |
| Theoretical Studies of the Fullerenes: C[subscript 34] to C[subscript 70] | p. 16 |
| The Infrared and Ultraviolet Absorption Spectra of Laboratory-produced Carbon Dust: Evidence for the Presence of the C[subscript 60] Molecule | p. 23 |
| Solid C[subscript 60]: A New Form of Carbon | p. 27 |
| The Vibrational Raman Spectra of Purified Solid Films of C[subscript 60] and C[subscript 70] | p. 31 |
| Isolation, Separation and Characterisation of the Fullerenes C[subscript 60] and C[subscript 70]: The Third Form of Carbon | p. 35 |
| Characterization of the Soluble All-Carbon Molecules C[subscript 60] and C[subscript 70] | p. 38 |
| Photophysical Properties of C[subscript 60] | p. 42 |
| Resilience of All-Carbon Molecules C[subscript 60], C[subscript 70] and C[subscript 84]: A Surface Scattering Time-of-Flight Investigation | p. 44 |
| Experimental Evidence for the Formation of Fullerenes by Collisional Heating of Carbon Rings in the Gas Phase | p. 52 |
| Electrochemical Detection of C[subscript 60][superscript 6-] and C[subscript 70][superscript 6-]: Enhanced Stability of Fullerides in Solution | p. 56 |
| Isolation of C[subscript 76], a Chiral (D[subscript 2]) Allotrope of Carbon | p. 65 |
| Unusual Electrochemical Properties of the Higher Fullerene, Chiral C[subscript 76] | p. 70 |
| Fullerene Isomerism: Isolation of C[subscript 2v]-C[subscript 78] and D[subscript 3]-C[subscript 78] | p. 73 |
| NMR Characterization of Isomers of C[subscript 78], C[subscript 82] and C[subscript 84] Fullerenes | p. 76 |
| Solid-State Magnetic Resonance Spectroscopy of Fullerenes | p. 83 |
| Electronic Structure of Solid C[subscript 60]: Experiment and Theory | p. 86 |
| Compressibility of Solid C[subscript 60] | p. 90 |
| Orientational Ordering Transition in Solid C[subscript 60] | p. 93 |
| Comment on "Orientational Ordering Transition in Solid C[subscript 60]" | p. 97 |
| Structural Phase Transitions in the Fullerene C[subscript 60] | p. 98 |
| Ground State and Phase Transitions in Solid C[subscript 60] | p. 105 |
| Conducting Films of C[subscript 60] and C[subscript 70] by Alkali-Metal Doping | p. 119 |
| Superconductivity at 18 K in Potassium-doped C[subscript 60] | p. 121 |
| Superconductivity at 28 K in Rb[subscript x]C[subscript 60] | p. 123 |
| Alkali-Fulleride Superconductors: Synthesis, Composition and Diamagnetic Shielding | p. 126 |
| Critical Magnetic Fields in the Superconducting State of K[subscript 3]C[subscript 60] | p. 130 |
| Structure of Single-phase Superconducting K[subscript 3]C[subscript 60] | p. 134 |
| [superscript 13]C NMR Spectroscopy of K[subscript x]C[subscript 60]: Phase Separation, Molecular Dynamics and Metallic Properties | p. 137 |
| Relation of Structure and Superconducting Transition Temperatures in A[subscript 3]C[subscript 60] | p. 140 |
| Superconductivity in the Fullerenes | p. 142 |
| Electron-Phonon Coupling and Superconductivity in Alkali-Intercalated C[subscript 60] Solid | p. 146 |
| Electronic Correlation Effects and Superconductivity in Doped Fullerenes | p. 150 |
| Pressure and Field Dependence of Superconductivity in Rb[subscript 3]C[subscript 60] | p. 155 |
| Compressibility of M[subscript 3]C[subscript 60] Fullerene Superconductors: Relation Between T[subscript c] and Lattice Parameter | p. 159 |
| Electronic Properties of Normal and Superconducting Alkali Fullerides Probed by [superscript 13]C Nuclear Magnetic Resonance | p. 162 |
| Raman Studies of Alkali-Metal Doped A[subscript x]C[subscript 60] Films (A = Na, K, Rb and Cs; x = 0, 3 and 6) | p. 166 |
| Vibrational Spectroscopy of Superconducting K[subscript 3]C[subscript 60] by Inelastic Neutron Scattering | p. 169 |
| Synthesis of Pure [superscript 13]C[subscript 60] and Determination of the Isotope Effect for Fullerene Superconductors | p. 171 |
| Tunneling Spectroscopy of M[subscript 3]C[subscript 60] Superconductors: The Energy Gap, Strong Coupling, and Superconductivity | p. 173 |
| Electrical Resistivity and Stoichiometry of K[subscript x]C[subscript 60] Films | p. 176 |
| Electronic Transport Properties of K[subscript 3]C[subscript 60] Films | p. 179 |
| Synthesis and Electronic Transport of Single Crystal K[subscript 3]C[subscript 60] | p. 183 |
| Organic Molecular Soft Ferromagnetism in a Fullerene C[subscript 60] | p. 185 |
| Lattice Structure of the Fullerene Ferromagnet TDAE-C[subscript 60] | p. 188 |
| Crystal Structure of Osmylated C[subscript 60]: Confirmation of the Soccer Ball Framework | p. 193 |
| The Chemical Nature of Buckminsterfullerene (C[subscript 60]) and the Characterization of a Platinum Derivative | p. 195 |
| Systematic Inflation of Buckminsterfullerene C[subscript 60]: Synthesis of Diphenyl Fulleroids C[subscript 61] to C[subscript 66] | p. 197 |
| Photophysics of Metal Complexes of Spheroidal Carbon Shells | p. 204 |
| Fullerenes with Metals Inside | p. 206 |
| Collision of Li[superscript +] and Na[superscript +] with C[subscript 60]: Insertion, Fragmentation and Thermionic Emission | p. 211 |
| Electron Paramagnetic Resonance Studies of Lanthanum-Containing C[subscript 82] | p. 215 |
| Helical Microtubules of Graphitic Carbon | p. 220 |
| Pentagons, Heptagons and Negative Curvature in Graphite Microtubule Growth | p. 223 |
| Vapor-Condensation Generation and STM Analysis of Fullerene Tubes | p. 226 |
| Nucleation of Diamond Films on Surfaces Using Carbon Clusters | p. 231 |
| Optical Limiting Performance of C[subscript 60] and C[subscript 70] Solutions | p. 234 |
| Photoconductivity of Fullerene-doped Polymers | p. 236 |
| Inhibition of the HIV-1 Protease by Fullerene Derivatives: Model Building Studies and Experimental Verification | p. 239 |
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