超级电容器似乎能够兼备速度和耐久性这两个优势,这是因为和电池类似,在构造上它采的是用离子和电解液而不是简单依靠静电荷。
The reason ultracapacitors may be able to bridge the gap between speed and endurance is that, like batteries, they use ions and an electrolyte rather than simply relying on the static charges.
公开了一种锂离子电容器,包括正电极、负电极、和作为电解液的非质子有机溶剂型锂盐溶液。
Disclosed is a lithium ion capacitor comprising a positive electrode, a negative electrode, and an aprotic organic solvent solution of a lithium salt as an electrolyte solution.
介绍了超级电容器工作电解质中的水系电解液和有机电解液的特点及研究成果,简要说明了固体电解质和凝胶电解质的特点。
The properties and research achievements of aqueous electrolytes and organic electrolytes are introduced, and the features of polymer electrolytes and gel electrolytes are described.
与有机电解液超级电容器受到的影响最大。
Supercapacitors with an organic electrolyte are affected the most.
国内有条件开发、研制这类铝电解电容器,关键是宽温工作电解液的研制及结构的设计。
The conditions for developing the said capacitor in China are available. Development of the electrolyte for the said capacitor and the design of the capacitor structure are most important.
较好的热稳定性不会出现采用电解液的铝电解电容器那样的电解液干涸现象。
Better thermal stability will not be used as the electrolyte electrolyte aluminum electrolytic capacitors drying phenomenon.
本发明所得电解液可使铝电解电容器获得高频低阻抗、耐热性好、耐压高、耐高纹波电流冲击、长寿命等优点。
Advantages are: high frequency and low impedance, good heat endurance, high withstand voltage, impulsion resistance of high ripple current, and long service life etc.
本发明所得电解液可使铝电解电容器获得高频低阻抗、耐热性好、耐压高、耐高纹波电流冲击、长寿命等优点。
Advantages are: high frequency and low impedance, good heat endurance, high withstand voltage, impulsion resistance of high ripple current, and long service life etc.
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