Abstract
Li-rich cathode materials have been considered as promising candidates for high-energy lithium ion batteries (LIBs). In this study, we report a new series of Li-rich materials (Li[Li1/3−2x/3Mn2/3−x/3Ni x ]O2 (0.09 ⩽ x ⩽ 0.2)) doped with small amounts of Ni as cathode materials in LIBs, which exhibited unusual phenomenon of capacity increase up to tens of cycles due to the continuous activation of the Li2MnO3 phase. Both experimental and computational results indicate that unlike commonly studied Ni-doped Li-rich cathode materials, smaller amounts of Ni doping can promote the stepwise Li2MnO3 activation to obtain increased specific capacity and better cycling capability. In contrast, excessive Ni will over-activate the Li2MnO3 and result in a large capacity loss in the first cycle. The Li1.25Mn0.625Ni0.125O2 material with an optimized content of Ni delivered a superior high capacity of ∼280 mAh·g−1 and good cycling stability at room temperature.
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