Order-disorder transformation of graphite-aluminium chloride intercalation compounds

The electrochemical behaviour of different graphites in molten lithium chloroaluminate electrolyte was studied using the potentiodynamic method. The oxidation currents observed at potentials below chlorine evolution are related to the oxidation of graphite during aluminium chloride intercalation.

However, as discussed by NODA and INACAKI,~) among others, the binder phase does not graphitize well, primarily because of the physical limitation of its being in a relatively thin film. It is suggested that the binder phase covers most of the accessible filler surface area in the AGKSP and bonded S

Structure analysis of graphite intercalated with TaCl ؊ 6 and TaOCl 3 has been carried out using molecular mechanics simulations and compared to previously published experimental data obtained by X-ray powder di4raction, electron di4raction, and other techniques. The basal spacing calculated for the

Iron chloride-graphite intercalation compounds synthesized from FeCI, = KC1 molten salts were studies according to the Moessbauer effect. The room temperature Moessbauer spectra of all compounds obtained in the molten salts at 400°C with initial FeCI,IKCl ratio of 90/10:55/45 were found to consist o