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Solid State Ionics, Vol.278, 281-286, 2015
Na3V2(PO4)(3)/C nanorods as advanced cathode material for sodium ion batteries
Morphological control is an effective way to improve the electrochemical properties of electrode materials for rechargeable batteries. In this paper, 1D Na3V2(PO4)(3)/C nanorods were successfully synthesized by a facile electrospinning method. Using as the cathode of sodium ion batteries, the Na3V2(PO4)(3)/C nanorods display good electrochemical performance. For example, it shows quite a flat potential plateau around 3.4 V (vs Na+/Na) and delivers an initial capacity as high as 116.9 mAh g(-1), at current density of 0.05 C, which is close to the theoretical capacity of 117.6 mAh g(-1). When cycled at 0.5 C, the initial discharge capacity is 105.3 mA h g(-1), and 92.6% of this value is still retained after 50 cycles. The good electrochemical performance can be ascribed to the short ion diffusion distances induced by the 1D nanorod morphology. The sodium ion diffusion coefficient of Na3V2(PO4)(3)/C nanorods after the first cycle is 5.39 x 10(-13) cm(2)/s, which is one order higher than the irregular micron scale Na3V2(PO4)(3)/C reported before. (C) 2015 Elsevier B.V. All rights reserved.