电池(电)
阴极
电化学
材料科学
钠
钠离子电池
离子
化学工程
过渡金属
容量损失
储能
电极
化学
冶金
催化作用
有机化学
物理化学
法拉第效率
功率(物理)
工程类
物理
量子力学
作者
Dingding Yuan,Wei He,Feng Pei,Fayuan Wu,Yue Wu,Jiangfeng Qian,Yuliang Cao,Xinping Ai,Hanxi Yang
摘要
Stable Na+ ion storage cathodes with adequate reversible capacity are now greatly needed for enabling Na-ion battery technology for large scale and low cost electric storage applications. In light of the superior Li+ ion storage performance of layered oxides, pure P2-phase Na0.67[Mn0.65Ni0.15Co0.2]O2 microflakes are synthesized by a simple sol–gel method and tested as a Na+ ion storage cathode. These layered microflakes exhibit a considerably high reversible capacity of 141 mA h g−1 and a slow capacity decay to 125 mA h g−1 after 50 cycles, showing much better cyclability than previous NaMnO2 compounds. To further enhance the structural and cycling stability, we partially substituted Co3+ by Al3+ ions in the transition-metal layer to synthesize Na0.67[Mn0.65Ni0.15Co0.15Al0.05]O2. As expected, the Al-substituted material demonstrates a greatly improved cycling stability with a 95.4% capacity retention over 50 cycles, possibly serving as a high capacity and stable cathode for Na-ion battery applications.
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