46. Thermal conductivity and thermopower studies of graphite intercalation compounds

Abstracts 215 much lower supersaturations, and conditions where gas phase reactions are minimized. Methane, acetylene and higher hydrocarbons were investigated.

The rate of fluorine intercalation in graphite is larger in the present system than in other metal fluorides examined previously. X-ray diffraction data indicate that C,F belongs to a hexagonal system with a superlattice of a, = 2a, in the ab plane, accompanying some amount of a bi-intercalation pha

The graphite intercalation compound (GIG) of titanium fluoride has been prepared in a fluorine atmosphere. The GICs prepared from natural graphite and pitch-based carbon fiber were mostly stage-2 compounds with repeat distance 11.28-11.59 A and composition Cll\_15TiF4.1\_6 >. The ESCA spectrum indic

Highly oriented carbon fibers have been intercalated with DMSO-solvated alkali-and substituted ammonium-cations by cathodic reduction. The resulting decrease in resistance was measured and correlated with values of other solvated cation-and anion-intercalation compounds of graphite. The findings ind

Electrical conductivity and conduction ESR (CESR) for graphite intercalation compounds (GICs) with nitric acid C 5n HNO 3 (n ¼ 2, 3) have been measured. In the incommensurate phase of second stage compounds (210 K < T < 250 K) absence of temperature dependence of the c-axis conductivity, but preserv