Abstract
Recently, cobalt (II, III) oxide (Co 3 O 4 ) is considered as an alternative anode material for high-performance LIBs because of its high safety and theoretical capacity (890 mAh g −1 ). However, Co 3 O 4 anode materials suffer from low conductivity and poor cycle life due to structural strain and huge volume change during lithiation/delithiation processes. In this work, porous N-doped graphitic carbon encapsulated Co 3 O 4 structure (Co 3 O 4 @PNGC) was synthesized by using mixed Zn and Co metal-organic frameworks templates (ZIF-67/ZIF-8) and coated with polydopamine as a nitrogen and carbon source. During the synthesis, Zn species was evaporated to form the structural pores, and the in-situ formation of Co(0) occurred that served as a catalyst in the graphitization of the carbon matrix. The Co 3 O 4 /PNGC exhibited an improved discharge capacity of 847.4 mAh g −1 after 500 cycles at 1 C when compared to the bare sample. • Co 3 O 4 @PNGC was prepared from cuboidal ZIF-67 @ZIF-8 particles wrapped by PDA via a facile method. • The unique PNGC structure can prevent undesirable Co 3 O 4 growth and enhance electrical conductivity of electrodes. • Co 3 O 4 @PNGC sample exhibits significantly improved electrochemical performances.
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