The effect of flake size on the composition of graphite ferric chloride

The thermal decomposition of graphite ferric chloride produces graphite ferrous chloride with two quadrupole splittings for iron. One of these is the same as the single splitting in bulk FeCl,. The other is larger and has an intensity, relative to the normal splitting, which increases with flake thi

The peripheral expansion of single flakes of natural graphite 0-5 to 3 mm in diameter has been measured during intercalation by solutions of 12 metal chlorides in nitromethane (NM) and by ICI and by H2SO4. As concentration is decreased and thickness is increased the percentage expansion decreases. A

The experimental techniques for intercalating highly oriented pyrolytic graphite crystals and large size graphite flakes with metal halides are well known and easily carried out. However, as the size of the graphite flakes decrease below 5 microns the conditions for intercalation become more difficu

The direction of the Burgers vector of the dislocations bounding the intercalated ferric chloride layers in the interlamellar compound of graphite and ferric chloride has been determined by extinction of the contrast and is found to be perpendicular to the c-planes. From this result the conclusion i

The H2 isotherms on graphite, CsFeCIs and ClOFeCI, are identical but when activated, &FeCl, shows higher absorption. This suggests that the metallic Fe produced on activation of CsFeCll in Hz at 375°C is on the surface and is not intercalated. The activated intercalation compound, CsFer&, catalyzes

Composition pressure isotherms of Hz and CO on graphite-ferric chloride rule out the possibility that the modified chemical or catalytic activity of metal intercalated graphite is the result of diffusion of reacting species between the layer planes. The catalytic activity for hydrocarbon synthesis d