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Abstract In-situ graphene encapsulated surface N-doped MoC nanoparticles (MoC@G-N) are synthesized through arc-discharged method. The MoC@G-N is demonstrated to be a promising anode material for high-rate and long-lifespan LIBs. Consequently,… Click to show full abstract
Abstract In-situ graphene encapsulated surface N-doped MoC nanoparticles (MoC@G-N) are synthesized through arc-discharged method. The MoC@G-N is demonstrated to be a promising anode material for high-rate and long-lifespan LIBs. Consequently, the composite can retain a reversible capacity of 545 mA h g−1 (1 A g−1) and 455 mA h g−1 (2 A g−1) for 300 cycles. Moreover, it can also deliver 545 mA h g−1 at 10 A g−1 for 20 cycles and recover to 580 mA h g−1 after a high-rate measurement for 200 cycles in total.
Journal Title: Materials Letters
Year Published: 2019
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