The Synergistic Effect of MoS(2) and NiS on the Electrical Properties of Iron Anodes for Ni-Fe Batteries

In this paper, a series of Fe(3)O(4)/MoS(2)/NiS composite electrodes were synthesized by a simple coprecipitation method. The influence of different ratio additives (MoS(2) and NiS) on the performance of iron anodes for Ni-Fe batteries was systematically investigated. In this paper, the mixed alkaline solution of 6 mol/L NaOH and 0.6 mol/L LiOH was used as electrolyte, and sintered Ni(OH)(2) was used as counterelectrode. The experimental results show that the MoS(2) and NiS additives can effectively eliminate the passivation phenomena in iron electrodes, reduce the electrode polarization, and increase the reversibility capacity. As a result, the Fe(3)O(4)/MoS(2)/NiS composite electrodes exhibit a high specific capacity, good rate performance, and long cycling stability. Especially, the Fe(3)O(4)/MoS(2) (5%)/NiS (5%) electrode with a suitable ratio of additives can provide excellent electrochemical performance, with high discharge capacities of 657.9 mAh g(−1), 639.8 mAh g(−1), and 442.1 mAh g(−1) at 600 mA g(−1), 1200 mA g(−1), and 2400 mA g(−1), respectively. This electrode also exhibits good cycling stability.