Department of Chemical Engineering, Konkuk University, 1 Hwayang-dong, Gwangjin-gu, Seoul 143-701, Korea.
Nanoscale. 2013 Oct 7;5(19):8899-903. doi: 10.1039/c3nr02625f. Epub 2013 Aug 5.
This paper presents the fabrication of yolk-shell V₂O₅ powders with a low melting temperature of 690 °C by using a simplified two-step process. The spherical V₂O₃-C composite obtained by spray pyrolysis transforms into yolk-shell V₂O₅ powder by a simple combustion process at 400 °C. The yolk-shell V₂O₅ powders are composed of nanoplate crystals several tens of nanometers in size, and have a BET surface area of 15 m(2) g(-1). The powders exhibit initial discharge and charge capacities of 271 and 264 mA h g(-1) at a current density of 1000 mA g(-1), respectively, and a corresponding Coulombic efficiency of 97.4%. After 100 cycles, the discharge capacity of the yolk-shell V2O5 powders is 201 mA h g(-1). In contrast, spherical V2O5 powders with a dense structure exhibit low initial discharge and charge capacities of 160 and 145 mA h g(-1), respectively. The structural stability of the yolk-shell during Li-ion insertion and extraction improves the electrochemical properties of the V2O5 powders, even at high current densities.
本文采用简化的两步法制备了具有 690°C 低熔点的蛋黄壳 V₂O₅ 粉末。通过喷雾热解法获得的球形 V₂O₃-C 复合材料在 400°C 下通过简单的燃烧过程转化为蛋黄壳 V₂O₅ 粉末。蛋黄壳 V₂O₅ 粉末由几十纳米大小的纳米板晶体组成,BET 表面积为 15 m(2) g(-1)。在 1000 mA g(-1) 的电流密度下,该粉末的初始放电和充电容量分别为 271 和 264 mA h g(-1),相应的库仑效率为 97.4%。经过 100 次循环后,蛋黄壳 V₂O₅ 粉末的放电容量为 201 mA h g(-1)。相比之下,具有致密结构的球形 V₂O₅ 粉末的初始放电和充电容量分别为 160 和 145 mA h g(-1)。在锂离子的嵌入和提取过程中,蛋黄壳的结构稳定性提高了 V₂O₅ 粉末的电化学性能,即使在高电流密度下也是如此。
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