Structure and Performance of Dual-doped LiMn2O4 Cathode Materials Prepared via Microwave Synthesis Method

•The dual-doped LiNi0.05-xMgxMn2O4 is successfully prepared by microwave sintering.•The crystal structure stability is significantly enhanced through the dual-doping and microwave synthesis technique.•The materials exhibit excellent cycle stability at elevated temperature and high rate.•The doped LiMn2O4 cathodes have lower dissolution of manganese at elevated temperature.

A series of LiNi0.05-xMgxMn1.95O4 (0.01≤x≤0.04) compounds were synthesized using microwave irradiation as sintering technique. The structures and electrochemical performances of the as-prepared powders were characterized by XRD, SEM, EDS, TEM, electrochemical galvanostatic cycling tests, EIS and XRF. The XRD and Rietveld refinement results indicate that all samples exhibit a single spinel structure and dual-doping causes the shrinkage of lattice space. The discharge capacities and cycling performances of LiNi0.03Mg0.02Mn1.95O4 are the best with a low capacity fading over the investigated 30 cycles at elevated temperature (55 °C). These results demonstrate that the microwave sintering method and metallic ions co-doping are effective ways to suppress the Mn dissolution from active electrodes at high temperature and high rate for lithium-ion batteries.