Anode active material and metal ion battery prepared therewith
    3.
    发明授权
    Anode active material and metal ion battery prepared therewith 有权
    阳极活性材料和金属离子电池

    公开(公告)号:US09406935B2

    公开(公告)日:2016-08-02

    申请号:US14345776

    申请日:2012-10-09

    摘要: A main object of the present invention is to provide an anode active material capable of increasing energy density at the same time increasing battery safety, and a metal ion battery prepared with the anode active material. The present invention is an anode active material including an element that belongs to alunite group capable to insert and remove an ion(s) of at least one metal element selected from the group consisting of alkali metal elements and alkaline-earth metal elements, and a metal ion battery having a cathode, an anode, and an electrolyte filled between the cathode and the anode, the electrolyte conducting a metal ion(s), wherein the anode active material is contained in the anode.

    摘要翻译: 本发明的主要目的在于提供能够提高电池安全性的同时提高能量密度的负极活性物质,以及利用阳极活性物质制备的金属离子电池。 本发明是一种负极活性物质,其包含属于能够插入和除去选自碱金属元素和碱土金属元素中的至少一种金属元素的离子的铝酸盐基的元素,和 金属离子电池具有阴极,阳极和填充在阴极和阳极之间的电解质,导电金属离子的电解质,其中负极活性物质包含在阳极中。

    ANODE ACTIVE MATERIAL AND METAL ION BATTERY PREPARED THEREWITH
    5.
    发明申请
    ANODE ACTIVE MATERIAL AND METAL ION BATTERY PREPARED THEREWITH 有权
    ANODE活性材料和金属离子电池

    公开(公告)号:US20140227598A1

    公开(公告)日:2014-08-14

    申请号:US14345776

    申请日:2012-10-09

    IPC分类号: H01M4/525 H01M4/58

    摘要: A main object of the present invention is to provide an anode active material capable of increasing energy density at the same time increasing battery safety, and a metal ion battery prepared with the anode active material. The present invention is an anode active material including an element that belongs to alunite group capable to insert and remove an ion(s) of at least one metal element selected from the group consisting of alkali metal elements and alkaline-earth metal elements, and a metal ion battery having a cathode, an anode, and an electrolyte filled between the cathode and the anode, the electrolyte conducting a metal ion(s), wherein the anode active material is contained in the anode.

    摘要翻译: 本发明的主要目的在于提供能够提高电池安全性的同时提高能量密度的负极活性物质,以及利用阳极活性物质制备的金属离子电池。 本发明是一种负极活性物质,其包含属于能够插入和除去选自碱金属元素和碱土金属元素中的至少一种金属元素的离子的铝酸盐基的元素,和 金属离子电池具有阴极,阳极和填充在阴极和阳极之间的电解质,导电金属离子的电解质,其中负极活性物质包含在阳极中。

    Electronic device and the production method
    7.
    发明授权
    Electronic device and the production method 有权
    电子设备及生产方法

    公开(公告)号:US07518848B2

    公开(公告)日:2009-04-14

    申请号:US11979205

    申请日:2007-10-31

    IPC分类号: H01G4/06

    摘要: An electronic device having an element body comprising an internal electrode layer, wherein the internal electrode layer includes an alloy, the alloy contains a nickel (Ni) element and at least one kind of element selected from ruthenium (Ru), rhodium (Rh), rhenium (Re) and platinum (Pt), and a content of each component is Ni: 80 to 100 mol % (note that 100 mol % is excluded) and a total of Ru, Rh, Re and Pt: 0 to 20 mol % (note that 0 mol % is excluded).

    摘要翻译: 一种电子器件,具有包括内部电极层的元件本体,其中所述内部电极层包括合金,所述合金含有镍(Ni)元素和选自钌(Ru),铑(Rh), 铼(Re)和铂(Pt),各成分的含量为Ni:80〜100摩尔%(注意,除去100摩尔%),Ru,Rh,Re和Pt的总和:0〜20摩尔% (注意不包括0mol%)。

    Method for manufacturing multi-layered unit for multi-layered ceramic electronic component

    公开(公告)号:US20060254701A1

    公开(公告)日:2006-11-16

    申请号:US10553536

    申请日:2004-04-12

    CPC分类号: H01G4/30 H01G4/12 H01G4/308

    摘要: It is an object of the present invention is to provide a method for manufacturing a multi-layered unit for a multi-layered ceramic electronic component which can prevent a ceramic green sheet from being deformed and destroyed and prevent a solvent contained in an electrode paste from sinking into a ceramic green sheet, thereby enabling manufacture of a multi-layered unit including a ceramic green sheet and an electrode layer laminated to each other in a desired manner. The method for manufacturing a multi-layered unit for a multi-layered ceramic electronic component according to the present invention includes a step of forming a ceramic green sheet on the surface of a first carrier film, a step of forming a release layer on the surface of a second carrier film including a surface-treated region on which a surface treatment is performed for improving releasability and non-surface-treated regions on which no surface treatment is performed on both sides of the surface-treated region and having a width substantially equal to that of the first carrier film, a step of forming an electrode layer in a predetermined pattern and a spacer layer in a complementary pattern to that of the electrode layer on the surface of the release layer, thereby forming an inner electrode layer, a step of forming an adhesive layer on the surface of a third carrier film having a width substantially equal to that of the second carrier film, a step of transferring the adhesive layer formed on the third carrier film onto the surface of the inner electrode layer, and a step of transferring the ceramic green sheet formed on the surface of the first carrier film onto the adhesive layer transferred on the surface of the inner electrode layer formed on the surface of the second carrier film, thereby fabricating a multi-layered unit including the ceramic green sheet and the inner electrode layer laminated onto each other, wherein the adhesive layer is formed by coating the surface of the third carrier film with an adhesive agent solution so that the width of the adhesive layer is narrower than the width of the third carrier film by at least 2α where α is a positive value, wider than the width of the ceramic green sheet formed on the surface of the first carrier film and the widths of the release layer and the inner electrode layer formed on the surface of the second carrier film by at least 2α and wider than the width of the surface-treated region of the second carrier film by at least 2α.