Abstract
Hierarchical nitrogen-doped carbon spheres (NCSs) prepared by annealing the MnO2-templated spherical polypyrrole (PPy) at 450 or 600°C were tested as anode materials of Li-ion batteries. The NCSs annealed at 450°C exhibited higher nitrogen content, more amorphous carbon structure, and lower surface area as compared to the sample annealed at 600°C. The specific capacities and rate performances of both NCSs samples were much higher than that of commercial mesocarbon microbeads (MCMBs). The NCSs annealed at 600°C exhibited higher capacity at low current density (<0.5Ag−1) but more rapid capacity decay at elevated current rates referring to the sample annealed at 450°C. The NCSs annealed at higher temperature also possessed inferior cycling stability, possibly due to its lower electronic conductivity and higher degree of graphitization. A high specific capacity of 250.8mAhg−1 was achieved on the NCSs annealed at 450°C at 3Ag−1, demonstrating their high potentiality as anode of high power Li-ion batteries.
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