Jiahuan Tong, Xiaodong Liang, Nicolas von Solms, Feng Huo, Bilin Zhuang
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引用次数: 0
摘要
锂离子电池是目前最流行、应用最广泛的储能设备,在现代社会的便携式设备、电动汽车、储能站等领域几乎无处不在。对更高效、更耐用、更可持续的电池的需求正在迅速增长。电解质是提高锂离子电池性能的关键因素。在这项工作中,我们重点研究四元离子液体电解质(ILE),它使用四组份离子液体作为溶剂。季态离子液体电解质已在储能系统中得到广泛应用,但电解质中的离子传输尚未得到充分表征,因此无法为性能优化提供最佳策略。在这项工作中,我们系统地分析了季ILE中的离子传输,并揭示了各种离子之间的相关性如何影响电解质的导电性。我们发现,锂离子是以电荷簇的形式传输的,这导致锂离子的有效传输数为负。此外,我们还通过聚类分析和量子化学计算确定了 ILE 中稳定的簇构象。这项工作强调了在多组分电解质系统中考虑离子相关性的必要性。
Ion Correlations in Quaternary Ionic Liquids Electrolytes
Lithium-ion batteries are currently the most popular and widely used energy storage devices, almost omnipresent within modern society in portable devices, electrical vehicles, energy storage stations, and so on. The demand for more efficient, more durable, and more sustainable batteries is rapidly growing. The electrolyte is a key element to improve the performance of lithium-ion batteries. In this work, we focus on quaternary ionic liquid electrolyte (ILE), which uses a four-component ionic liquid as the solvent. Quaternary ILE has found wide applications in energy storage systems, but the ion transport in the electrolyte has not been fully characterized to provide the best strategy for performance optimisation. In this work, we systematically analyse the ion transport in the quaternary ILE and uncover how the correlations between various ions affect the conductivity of the electrolyte. We have found that lithium ions are transported in charge clusters, leading to a negative effective transference number of lithium ions. Furthermore, we identify the stable cluster conformations in ILE by cluster analysis and quantum chemical computing. This work highlights the necessity of considering ion correlations in multi-component electrolyte systems.