Abstract
Though considered as one of the most promising materials for rechargeable Li-ion batteries, spinel LiMn2O4 suffers from fast capacity fading during cycling due to the structural instability, Jahn–Teller distortion, and Mn dissolution into the electrolyte. In order to improve the electrochemical performance, in this work, we, for the first time, realize the sulfur doping by the plasma-assisted method in LiMn2O4. Physical properties of the synthesized materials LiMn2O4–xSx are measured by XRD, SEM, and EDS, which confirm that S atoms have been successfully doped into the structure of LiMn2O4 (LiMn2O4–xSx) with the high crystalline and uniform morphology. Compared to the pristine LiMn2O4 prepared by the conventional method (800 °C, 8 h), the LiMn2O4–xSx prepared by the plasma-assisted method shows superior performance with higher capacity (125.3 mAh·g–1) and significantly improved cycling stability (maintaining 97.76% of its initial discharge capacity after 60 cycles). In addition, the sulfur-doped LiMn2O4 d...
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