Sodium ion battery has been rapidly consolidating its status of the dominant power supplier for largescaleenergy storage systems as a candidate of lithium ion battery and has gotten widely attention. In thiswork, an integrated porous Ni3S2 electrode assisted by copper using for sodium storage showed anadvanced electrochemical performance and long life-span. Coupled with Cu particles planted on the surfaceof Ni foam, electron transfer can be fast induced, thus avoiding the electrode damage due to collectionelectron. It further achieved a superior retention of 88.7 % with the capacity of 417 mAh g1. In thekinetics analysis, the capacitance-controlled capacity in the electrochemical process dominated, and thefast calculated Na+ diffusion coefficients was 4 10-10 cm2 s1. Therefore, it deserves attention and furtherresearch for the commercial application of large-scale energy storage.