Graphite intercalation compounds II: transport and electronic properties
Hartmut Zabel, Stuart A. Solin
Springer-Verlag, 1992 - Nature - 433 pages
This book covers the basic physics and materials science of graphite intercalation compounds. The emphasis is on the layered or quasi-two-dimensional structure of these compounds, which provides an exciting arena for testing physical concepts in lower dimensions. The chapters in this second volume, all of which have been written by internationally recognized experts in the field, cover the following topics: the theory of the electronic band structures and their experimental verification by a variety of experimental techniques, transport properties such as superconductivity and thermal conductivity, magnetic properties and phase transitions, and intercalation fibres, including their actual and potential applications. Together with "Volume 14" of the "Springer Series in Materials Science" these reviews provide a comprehensive overview of the current status of the field of two-dimensional physics.
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Electronic Band Structure of Graphite Intercalation Compounds
9 other sections not shown
acceptor compounds acceptor GICs anisotropy antiferromagnetic axis band structure behavior Brillouin zone c-axis C6Eu calculations carbon fibers charge transfer contribution CuCl2 decrease density donor GICs Drude effects electrical resistivity electronic band structure electronic structure energy experimental FeCl3 Fermi energy Fermi level Fermi surface Fermi-level shift graphene graphene layers graphite fibers Graphite Intercalation Compounds Hamiltonian HOPG host materials in-plane increase intercalate layers intercalate species intercalated fibers interlayer interplanar ions Kamimura lattice low-temperature M.S. Dresselhaus magnetic acceptor magnetic field magnetic GICs magnetic phase magnetic properties measurements metal neutron scattering NiCl2 GICs observed obtained optical P.C. Eklund parameters peak phase transition phonons Phys plane potassium pristine graphite Raman sample Sect shown in Fig shows spectra spectrum spin stage index stage-1 stage-1 and stage-2 stage-2 CoCl2 GICs stage-2 compounds studies superconductivity susceptibility Synth temperature dependence thermal conductivity thermoelectric power thermopower valence values VGCF filaments