Physics of Intercalation Compounds, Softcover reprint of the original 1st ed. 1981
Proceedings of an International Conference Trieste, Italy, July 6-10, 1981
Springer Series in Solid-State Sciences Series, Vol. 38

When an area of research is in fast growth, it often happens that no one single journal is to be found where most of the relevant publications are contained. Such is the case of the physics of intercalation compounds, a field which, by sitting at a corner point between materials science, solid­ state physics, and chemistry, finds its contributions largely scattered about in the literature. Given these circumstances it is of crucial interest to find a place where the most recent contributions and up-to-date referen­ ces can be found at once. For intercalated graphite and other similar com­ pounds this role has been played so far by proceedings of international con­ ferences, such as La Napoule (1977), Nijmegen (1979), Provincetown (1980), and Sendai (1980). The present book is an ideal continuation of this series, as it contains most of the invited and contributed papers of the Trieste International Con­ ference on the Physics of Intercalation Compounds, held in Trieste, Italy during the week 6-10 July 1981. The main emphasis is on intercalated graphite, though several interesting contributions deal with other materials, such as polyacetylene and transition­ metal compounds, or with general problems, such as two-dimensional melting. The book is divided into six sections-Structure and General Properties, Electronic Porperties, Stability and Phonons, Ordering and Phase Transitions, Magnetic Resonance, and Transport Properties-reflecting the main areas of interest, and also broadly the main discussion sessions of the Conference.

I. Structure and General Properties.- Kinetic Problems with Intercalation Compounds.- Comments on the Stoichiometry in the Metal-Graphite and Metal-Carbon Compounds.- Doped Polyacetylenes and Graphite Intercalation Compounds: A Comparative Study.- Bond Length, Bond Strength and Electrical Conductivity in Carbon Based Systems.- Intercalation Reactions of Solids by Electron/Ion Transfer.- Domain Structures in Graphite Intercalation Compounds.- Surface Study of Vacuum Synthesized Cesium Graphite Intercalation Compounds CsCn.- Irradiation Induced Defects in Layered Dichalcogenides.- The Role of Kinetic Effects in Voltammetry Studies of Intercalation Systems.- II. Electronic Properties.- Experiments on the Electronic Structure of Graphite Intercalation Compounds.- Electronic Properties of Graphite Intercalation Compounds.- Experimental Construction of Fermi Surface of C24SbCl5.- Effective Mass Studies of Intercalated Graphite.- Analysis of Physical Properties of Potassium-Tetrahydrofuran-Graphite Derivatives KC24s (THF)m.- Inelastic Electron Scattering Spectroscopy of Intercalated Graphite and Polyacetylene.- On the Theoretical Models for Polyacetylene.- Electronic Correlation Effects in Cyclic Polyenes and in Polyacetylene.- X-Ray and Shubnikov-De Haas Studies of C8nAsF5 (n=1,2,3).- Model Self-Consistent Bands for Graphite Intercalation Compounds.- Charge Superlattice Effects on the Electronic Structure of a Model Acceptor Graphite Intercalation Compound.- Knight Shift and Nuclear Quadrupolar Interaction in Alkali-Graphite Intercalation Compounds.- III. Stability and Phonons.- Lattice Distortions in Layered Compounds.- Experimental Studies of Phonon Dispersion and C-Axis Structure in Graphite Intercalation Compounds.- Phonons in Graphite Intercalation Compounds Measured by Neutron Scattering.- The Raman Spectrum of EuC6: A Clue to Understanding Light Scattering from Stage 1 Alkali Gic’s.- Sound Velocities in Stage 1 and Stage 2 FeCl3 Intercalated Graphite.- Raman Measurements of Folded Interlayer Shearing Phonons in KC12n (n = 2-6).- IV. Ordering and Phase Transitions.- Structural Studies of Intercalants.- X-Ray Diffraction from Graphite Intercalation Compounds Under Hydrostatic Pressure.- On the Structure of the First Stage Binary Compound of Metals Intercalated into Graphite.- Ordering in Intercalation Graphite Compounds by Means of X-Ray Diffraction.- Liquids in a Periodic Potential.- Effect of Relaxation on some Thermodynamic Properties of Lattice Gas Models with Applications to AgCrS2 and Hollandite.- Melting and Nucleation of a Two-Dimensional Electron Solid.- Melting of the Two-Dimensional Electron Solid. A Kosterlitz Thouless Phase Transition?.- V. Magnetic Resonance.- Magnetic Resonance in Graphite Intercalated Compounds.- 133Cs NMR Studies of Cesium G.I.C..- The Electronic Structure of Donor- and Acceptor-Type Intercalation Compounds by Means of Low Temperature Specific Heats and 13C Nuclear Magnetic Resonance.- VI. Transport, Conductivity, Superconductivity.- Electrical Conductivity and Superconductivity in Graphite Intercalation Compounds.- Superconductivity of Graphite Intercalation Compounds with Alkali and Alkali-Amalgam.- Thermal Conductivity: An Old Method and New Tool to Investigate Intercalation Compounds.- The Effect of Hydrogen Sorption on the Electronic Properties of C24K.- Critical Currents in Layered Superconductors.- List of Contributors.