Graphite Fluoride Prepared at Mild Temperature for High Energy/High Power Density Lithium Batteries

Abstract

We used a two-step fluorination of natural or synthetic graphites, the one at the ambient temperature in the presence of F₂ + IF₅ + HF and the second in the temperature range of 100 – 350°C in F₂ atmosphere. This led to graphite fluorides characterized by the planarity of the carbon hexagons (sp² hybridization), by the iono-covalent character of the C-F bondings and by the high F/C ratio, close to unity. These graphite fluorides were compared to conventional, highly covalent CF_x (sp³ hybridization) in their electrochemical performances in lithium batteries, especially regarding the high rate discharge capability. We found a large advantage with the iono-covalent CF_x that is they sustain a 5 C rate discharge where the covalent ones failed to discharge under 4 C. The difference is tentatively related to the internal structure and to the higher electrical conductivity of iono-covalent CF_x.