With the energy issues, electrochemical energy storage is an important issue for future technology development. The goals of the next generational battery are low cost, high-rate charging, high stability, high energy and power density. To meet this requirement, we developed aluminum ion battery which is a high safety and low cost battery system. With three-electron redox anode reaction, aluminum ion battery has higher energy and power density. For the environmental issues, the battery system is without pollution and poison. In our early work, we used natural flake graphite as cathode for AIB. The performance of the graphite cathode was high capacity, high voltage plateau and without decay after thousands of cycles. The purpose of this study was to investigate the interaction of AlCl4- and graphite cathode during charging. We dug deeper on the reaction mechanisms with in situ XRD, in-situ Raman and XAS. Finally, we used DFT and first principle method to confirm the reaction between graphite and AlCl4-. Besides, we observed the performance of AIB with different graphite loading, different kind of separators and charging at various temperatures.