Ionic Liquids in Advanced Energy Storage Cells

A. Göllei, A. Magyar
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引用次数: 1

Abstract

The interest in the research and application of ionic liquids has been increased worldwide, especially in petrochemical industry, nuclear industry, oil and gas industry, chemical, and electro-chemical industry. In the field of chemical operations in microwave field with ionic liquids (organic chemical synthesis, catalytic operations, etc.) new horizons opened that were supported by the dramatically increasing number of studies dealing with this question and their impact. Due to the high durability of ionic liquids as a function of temperature, a wider temperature range of operations can be accessed. In addition, it offers environmental friendly solution in the replacement of the toxic solvents with generally low volatility. The area of application extends to electrolytes of novel battery cells. The important prerequisite for application of ionic liquids is the knowledge of their physical and chemical properties. Our aim was to test the dielectric properties, viscosity, and temperature dependence of the electrical conductivity. Considering our measurements, it can be declared that the aforementioned properties show significant temperature dependence in the case of ionic liquids. This knowledge is important for the usability, design and execution of production and related optimization processes. It is particularly important that energy storage cells can be exposed to large temperature fluctuations. This study discusses the sample materials, the usage possibilities of the sample materials and the obtained results.
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离子液体在先进储能电池中的应用
离子液体的研究和应用日益受到世界各国的重视,特别是在石油化工、核工业、石油天然气工业、化学和电化学工业等领域。在微波场离子液体的化学操作领域(有机化学合成、催化操作等),由于处理这一问题的研究及其影响的急剧增加,开辟了新的视野。由于离子液体作为温度函数的高耐久性,可以获得更宽的操作温度范围。此外,它提供了环保的解决方案,以取代有毒溶剂,一般挥发性低。应用领域扩展到新型电池的电解液。了解离子液体的物理和化学性质是离子液体应用的重要前提。我们的目的是测试电导率的介电特性、粘度和温度依赖性。考虑到我们的测量,可以宣布,上述性质在离子液体的情况下表现出显著的温度依赖性。这些知识对于产品的可用性、设计和执行以及相关的优化过程非常重要。特别重要的是,储能电池可以暴露在较大的温度波动中。本研究讨论了样品材料、样品材料的使用可能性和得到的结果。
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