电极
阳极
材料科学
锂(药物)
电池(电)
工作(物理)
荷电状态
锂离子电池
离子
石墨
复合材料
化学
热力学
物理化学
功率(物理)
有机化学
内分泌学
物理
医学
作者
Kang Fu,Xueyan Li,Kai Sun,Peng Tan
标识
DOI:10.1016/j.jpowsour.2023.233880
摘要
Improving the energy density of lithium-ion batteries is a goal pursued in state-of-the-art batteries, and the use of thick electrodes with high active material loading densities is one of the most effective and direct methods. Most studies indicate that the hindrance to the practical application of thick electrodes is mainly attributed to the slow charge kinetics, resulting in very low utilization of active materials. Here, this work shows that the thermodynamic properties of the electrode material also have a significant impact on the electrode reaction behavior. When the equilibrium potential of the electrode material has a strong dependence on the state of charge, it promotes the uniform reaction of the electrode active material. By simulating the full battery under low and high load conditions, the reaction behavior of the thin electrodes is dominated by the equilibrium potential curve. However, the reaction behavior of thick electrodes is regulated by both kinetics and thermodynamics and depends on the strength of the relationship between these two properties. Meanwhile, the graphite anode limits the release of the full battery capacity to a greater extent. This work points out a new direction for the practical development and application of thick electrodes.
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