Abstract:A new microwave synthesis method was proposed to prepare bromo-chloroaluminate ionic liquid. The physical and chemical characteristics of this ionic liquid were tested and the ionic liquid was used as the electrolyte in aluminium electrodeposition. Electrochemical techniques of cyclicvoltammetry, chronoamperometry and polarization curve (tafel) were used to investigate the mechanism of aluminium electrodeposition from 2AlCl₃/[EMIM]Br ionic liquid. Constant potential electrodepositon of aluminium was conducted on the copper substrates at room temperature and the qualitative analysis of the deposits was performed using SEM and XRD, respectively. The results indicate that the reaction time of the new microwave synthesis of bromo-chloroaluminate is drastically reduced, comparing with that of the conventional methods, and the properties of chloroaluminate ionic liquid are improved. Aluminium electrodeposition from this ionic liquid is not a simple linear diffusion controlled process, but a quasi-reversible process with complex kinetic limitations. The aluminium deposits obtained at different potentials are mainly about three typical morphologies and the reason for the three typical morphologies and their characteristics are analyzed.

Key words: microwave synthesis; electrodeposition; activation polarization; concentration polarization