129. Electrochemical preparation of zinc chloride and mercury nitrate graphite intercalation compounds

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

Stage-n Fe&GICs (n = 2,3) prepared in the standard two-zone method were oxidized galvanostatically in H,SO,. The electrode potential vs. electric quantity curves observed during the treatment and the X-ray powder patterns of the products showed clearly the intercalation of H,SO, into FeCI,-GICs and

The preparation of graphite-alkali metal-solvent or graphite-N&-solvent ternary intercalation compounds by electrochemical reduction of graphite is described. The reduction occurs stagewise and the complete formation of a defined stage can be recognized by a striking change in the potential of the g

The slow potentiodynamic method and galvanostatic measurements in 0.25 M H,SO, have appeared to bc very useful tools to determine the quantity of the lower chromium oxides built into graphite\_CrOs compounds (GIG-CrO,'s). From the charge and discharge curves it has been possible to calculate the oxi