纳米棒
硫化
材料科学
阴极
电化学
热液循环
金属有机骨架
储能
制作
多孔性
钠
纳米技术
化学工程
电极
冶金
化学
复合材料
功率(物理)
物理化学
工程类
有机化学
吸附
医学
硫黄
物理
替代医学
量子力学
病理
作者
Zhenxiao Lu,Nana Wang,Yaohui Zhang,Pan Xue,Meiqing Guo,Bin Tang,Xun Xu,Wenxian Wang,Zhongchao Bai,Shi Xue Dou
标识
DOI:10.1021/acsaem.8b01239
摘要
Sodium-ion batteries (SIBs) are supposed to be attractive energy strorage and supply devices due to the abundant reserves of sodium. Their limited specific capacity and rate capacity, however, are standing in the way of the extensive application of SIBs. It is reported herein that porous sea-cucumber-like FeS2@C nanorods can act as efficient cathode materials to satisfy the rigorous requirements of the proposed applications. The fabrication of the sea-cucumber-like FeS2@C nanorods involves the hydrothermal growth of F-MIL (where F = Fe, MIL = materials from the Lavoisier Institute) nanorods, and subsequent sulfidation. The electrochemical results demonstrate that the FeS2@C nanorods are an outstanding cathode material for SIBs with high specific capacity (385 mAh/g), ultralong lifetime (160 mAh/g after 10 000 cycles at 20 A/g), and exceptional rate capability. The metal–organic framework (MOF) template method provides a useful route toward the development of high-performance electrode materials with robust power and cyclability.
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