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Article Abstract
α-Phase molybdenum trioxide (α-MoO) is one of the promising anode materials for lithium storage due to its high theoretical capacity and unique intercalation reaction mechanism. Herein, through an efficient step-by-step solvothermal synthesis strategy, multi-layered MoO nanosheets are encapsulated by nitrogen-doped carbon (NC) and ultrathin TiO double-shells to obtain hierarchical core-shell nanospheres (MoO@TiO@NC). The unique nanostructure enables shortening the Li diffusion distance, buffer the volume change during the intercalation/deintercalation process, and increase the active sites for the electrochemical reaction. Based on the hierarchical nanostructure and the synergistic effect of each component, the MoO@TiO@NC electrode exhibits a high Li storage capacity around 979.6 mA h g after 200 cycles at 0.2 A g, a stable cycle performance of 800.3 mA h g at 1 A g after 700 cycles and an excellent rate capability of 418.0 mA h g at 5 A g. Furthermore, the MoO@TiO@NC-based coin-type full cell with a commercial LiNiMnCoO cathode exhibited a good cycling stability at 0.2 A g for 100 cycles (∼190 mA h g) and rate capability (134 mA h g at 5 A g).
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