Abstract
This paper firstly reports a facile hydrothermal method to prepare CuFeS2 spike-like nanorods as a promising anode material for lithium ion batteries. When being evaluated as an anode material in traditional carbonate-based (EC/DEC/DMC) and ether-based (DOL/DME) electrolytes, it's found that the type of the electrolytes plays a key role in contribution to the electrochemical performance. The CuFeS2 binary mental sulfide material has initial discharge capacities of 632.6mAh/g in the carbonate-based electrolyte and 674.9mAh/g in the other at the rate of 0.2C. After 50 circles, the discharge capacity decays severely, down to 64.3mAh/g while the one performed in the ether-based electrolyte still possesses a capacity of 425.3mAh/g, whose capacity retention is far more higher. Besides, an outstanding rate capability (∼190mAh/g) can be obtained at a high rate of 10C in the ether-based electrolyte, which is indicative of becoming promising anode materials for high-rate lithium batteries.
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