Abstract
Aqueous Ni-Fe battery with high safety and low cost is a promising candidate for large-scale electrical energy storage; their performance, however, has been limited by the poor performance of the Fe electrodes. We reported herein a facile synthesis of Fe particles coated with graphitic shell for high-performance Fe anodes. The anodes exhibit a high capacity of 224mAhg−1 at a high current density of 32Ag−1, and a high capacity retention of 90% after 1000 cycles. When coupled with a cathode made from the composites of Ni(OH)2 and nitrogen-doped graphene, the battery delivers a high energy density of 136.7Whkg−1 at power density of 0.7kWkg−1 or 71.4Whkg−1 at 11.7kWkg−1 (based on the total mass of active materials). This work provides highly promising materials towards better Ni-Fe batteries.
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