Temperature dependence of C-axis electrical resistivity and thermopower of graphite intercalation compounds

The c-axis electrical resistivity of the stage-4 acceptor ZnQ graphite intercalated compound (GIG) has been measured in the temperature range (4.2-300)K. The obtained values are larger than those of Highly Oriented Pyrolytic Graphite (HOPG). Evidence for a change in the observed metallic tendency at

Temperature dependence of the resistivity has been measured between 4.2 K and 273 K on C,F, C,TiF, and C,VF,. The resistivity obeys the equation, p(T) = A + BT + CT\* in the temperature range up to around 170 K and 220 K, where C,F and C,VF, exhibit anomalous inflections possibly connected with phas

The temperature zerland). '33Cs and 'Li NMR measurements on intervariation of the in-plane thermal conductivities in the calated C&s and C,Li samples of HOPG and C&s range 2 < T < 300K are reported for stages 2, 3 and 6 powder samples are reported. The isotropic and axial FeC& and a stage-5 potassiu

The electrical resistivity of graphite fibers intercalated with iodine monochloride was found to vary with the applied electric power, such that the electrical resistivity increased reversibly by up to 90% upon the application of electric power up to 7 x lo-' W/cm of a single fiber. The increase was