Micron-Sized Cobalt Niobium Oxide with Multiscale Porous Sponge-Like Structure Boosting High-Rate and Long-Life Lithium Storage.
Huaibing LiuChun-Hua ChenPublished in: ACS applied materials & interfaces (2024)
Niobium-based oxides show great potential as intercalation-type anodes in lithium-ion batteries due to their relatively high theoretical specific capacity. Nevertheless, their electrochemical properties are unsatisfactorily restricted by the poor electronic conductivity. Here, micron-sized Co 0.5 Nb 24.5 O 62 with multiscale sponge-like structure is synthesized and demonstrated to be a fast-charging anode material. It can deliver a remarkable capacity of 287 mA h g -1 with a safe average working potential of ≈1.55 V vs Li + /Li and a high initial Coulombic efficiency of 91.1% at 0.1C. Owing to the fast electronic/ionic transport derived from the multiscale porous sponge-like structure, Co 0.5 Nb 24.5 O 62 exhibits a superior rate capability of 142 mA h g -1 even at 10C. In addition, its maximum volume change during the charge/discharge process is determined to be 9.18%, thus exhibiting excellent cycling stability with 75.3% capacity retention even after 3000 cycles at 10C. The LiFePO 4 //Co 0.5 Nb 24.5 O 62 full cells also achieve good rate performance of 101 mA h g -1 at 10C, as well as an excellent cycling performance of 81% capacity retention after 1200 cycles at 5C, further proving the promising application prospect of Co 0.5 Nb 24.5 O 62 .
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