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Wiley Small Structures 5(1)
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    초록·키워드

    Sodium‐ion batteries are attracting great attention as an alternative to lithium‐ion batteries due to the lower cost and better sustainability of sodium. Although the metal sulfide‐based anodes demonstrate much higher theoretical capacity than the hard carbon anodes, the severe capacity degradation and inferior rate capability caused by poor electrical conductivity and sluggish kinetics hinder their applications. Herein, a novel bimetallic sulfide‐based anode wrapped by reduced graphene oxide (i.e., Bi 2 S 3 /VS 4 /rGO) is presented, in which the heterointerfaces between Bi 2 S 3 and VS 4 are well distributed among the composite, leading to the promoted charge transfer and the improved Na + transport kinetics. Combined with electrolyte optimization, the Bi 2 S 3 /VS 4 /rGO demonstrates excellent electrochemical performance, including excellent rate capabilities over 10 A g −1 , and a long lifespan over 1000 cycles. This work indicates the significance of the synergistic effect of structure regulation and electrolyte optimization for achieving fast‐charging performance.

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