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    • 7. 发明授权
    • Electric double layer capacitor and method for preparing the same
    • 双电层电容器及其制备方法
    • US06751084B2
    • 2004-06-15
    • US10271986
    • 2002-10-17
    • Yutaka NakazawaRyuichi KasaharaKoji Sakata
    • Yutaka NakazawaRyuichi KasaharaKoji Sakata
    • H01G900
    • H01G9/155Y02E60/13Y10T29/417
    • An electric double layer capacitor is disclosed which is capable of preventing transmission of an electrolytic solution vaporized in a basic cell through current collectors and capable of improving a yield. A method for preparing the electric double layer capacitor is also disclosed. The electric double layer capacitor includes a basic cell prepared by the steps of: applying a current collector onto a surface of a substrate; disposing an electrically insulating gasket element on the surface the substrate in such a manner that the current collector laterally abuts on the gasket element to define a concavity; placing a polarizable electrode impregnated with an electrolytic solution on the surface of the current collector; oppositely disposing two intermediate products prepared through the foregoing steps on a separator in such a manner that the gasket elements abut on surfaces of a peripheral portion of the separator; fusion-bonding the gasket elements together to laterally cover the separator with the resulting unified gasket; and removing the substrates from the current collectors and the gasket. The substrate has a vapor transmission rate of a predetermined one or lower with respect to the electrolytic solution vaporized at a temperature of the fusion-bonding.
    • 公开了一种双层电容器,其能够防止通过集电体在基本电池中蒸发的电解液的传输并且能够提高产率。 还公开了一种制备双电层电容器的方法。 电双层电容器包括通过以下步骤制备的碱性电池:将集电体施加到基板的表面上; 将电绝缘衬垫元件设置在衬底的表面上,使得集电器横向邻接衬垫元件以限定凹陷; 将浸渍有电解液的极化电极放置在集电体的表面上; 将上述步骤制备的两个中间产物相反地设置在分离器上,使得垫圈元件邻接隔膜的周边部分的表面; 将垫圈元件熔合在一起以用所得到的统一垫片横向覆盖隔板; 以及从集流器和垫圈中去除基板。 基板相对于在熔接温度下蒸发的电解液的蒸气透过率为预定值以下。
    • 8. 发明授权
    • Electric double-layer capacitor and method for preparing the same
    • 电双层电容器及其制备方法
    • US06741450B2
    • 2004-05-25
    • US10320417
    • 2002-12-17
    • Yutaka NakazawaRyuichi KasaharaKoji Sakata
    • Yutaka NakazawaRyuichi KasaharaKoji Sakata
    • H01G900
    • H01G9/155Y02E60/13Y10T29/417
    • An electric double-layer capacitor includes a cell structure formed by laminating basic cells in series one on another. Each of the basic cells includes a pair of collectors, a separator disposed between said collectors, gaskets disposed at peripheral edges of said pair of collectors and said separator to define a pair of closed spaces, and a pair of polarizable electrodes which are disposed in said closed spaces defined by said collectors, said separator and said gaskets, respectively and which contain an electrolytic solution. The basic cells are laminated one on another with a back of each of said collectors opposed to said polarizable electrode serving as a connection surface. The electric double-layer capacitor further includes a lead terminal/electrode plate assembly having electrode plates bonded to the collectors located at opposite ends of the cell structure through conductive bond layers. At least one of interfaces between the collectors included in said cell structure has a surface shape based on a rugged surface shape of the surface of the polarizable electrode contacting with and opposed to at least one of the two collectors forming such interface. Thus, in the electric double-layer capacitor, a lower ESR can be realized both at an initial stage of the service of the capacitor and after the service of the capacitor for a long period.
    • 电双层电容器包括通过将基本电池串联层叠而形成的电池结构。 每个基本单元包括一对收集器,设置在所述收集器之间的隔板,设置在所述一对集电器的周边边缘处的垫圈和所述隔板以限定一对封闭空间,以及一对可极化电极, 由所述收集器,所述分离器和所述垫圈分别限定并且包含电解液的封闭空间。 基本单元彼此层叠,与所述可极化电极相对的每个所述集电体的背面用作连接表面。 电双层电容器还包括引线端子/电极板组件,其具有通过导电接合层与位于电池结构的相对端的集电体接合的电极板。 包含在所述电池结构中的收集器之间的至少一个接口具有基于与可形成这种界面的两个集电器中的至少一个接触并与其相对的可极化电极的表面的粗糙表面形状的表面形状。 因此,在双电层电容器中,在电容器的使用的初始阶段和电容器的长时间使用之后,可以实现较低的ESR。