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通过控制 Li2MnO3 相激活,用于锂离子电池的高能量“复合”层状富锰阴极材料。

High-energy 'composite' layered manganese-rich cathode materials via controlling Li2MnO3 phase activation for lithium-ion batteries.

机构信息

Energy Technology Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Umezono 1-1-1, Tsukuba, 305-8568, Japan.

出版信息

Phys Chem Chem Phys. 2012 May 14;14(18):6584-95. doi: 10.1039/c2cp40745k. Epub 2012 Mar 28.

Abstract

The 'composite' layered materials for lithium-ion batteries have recently attracted great attention owing to their large discharge capacities. Here, the 0.5Li(2)MnO(3)·0.5LiMn(0.42)Ni(0.42)Co(0.16)O(2)'composite' layered manganese-rich material is prepared and characterized by the synchrotron X-ray powder diffraction (SXPD). The relationship between its electrochemical performance and its 'composite' components, the Li(2)MnO(3) phase activation process during cycling and the cycle stability of this material at room temperature are elucidated based on its kinetic controlled electrochemical properties, dQ/dV curves and Raman scattering spectroscopies associated with different initial charge-discharge current densities (5 mA g(-1), 20 mA g(-1) and 50 mA g(-1)), cut-off voltages (4.6 V and 4.8 V) and cycle numbers (50 cycles and 150 cycles). Furthermore, its reaction pathways are tracked via a firstly introduced integrated compositional phase diagram of four components, Li(2)MnO(3), LiMn(0.42)Ni(0.42)Co(0.16)O(2), MO(2) (M = Mn(1-α-β)Ni(α)Co(β); 0 ≤α≤ 5/12, 0 ≤β≤ 1/6) and LiMnO(2), which turns out to be a very important guiding tool for understanding and utilizing this 'composite' material.

摘要

用于锂离子电池的“复合”层状材料由于其高放电容量而受到广泛关注。在此,我们制备了 0.5Li(2)MnO(3)·0.5LiMn(0.42)Ni(0.42)Co(0.16)O(2)“复合”层状富锰材料,并通过同步辐射 X 射线粉末衍射 (SXPD) 对其进行了表征。基于其动力学控制电化学性能、dQ/dV 曲线和与不同初始充放电电流密度(5 mA g(-1)、20 mA g(-1)和 50 mA g(-1))、截止电压(4.6 V 和 4.8 V)和循环次数(50 次和 150 次)相关的 Raman 散射光谱,阐明了其电化学性能与其“复合”成分、循环过程中 Li(2)MnO(3)相的活化过程以及该材料在室温下的循环稳定性之间的关系。此外,通过引入一个由四个成分(Li(2)MnO(3)、LiMn(0.42)Ni(0.42)Co(0.16)O(2)、MO(2)(M = Mn(1-α-β)Ni(α)Co(β);0 ≤α≤ 5/12,0 ≤β≤ 1/6)和 LiMnO(2))组成的综合成分相图,跟踪了其反应途径,这对于理解和利用这种“复合”材料是一个非常重要的指导工具。

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