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    Fuel Cell Structure and Method of Manufacturing Same
    2.
    发明申请
    Fuel Cell Structure and Method of Manufacturing Same 有权
    燃料电池结构及制造方法相同

    公开(公告)号:US20080187814A1

    公开(公告)日:2008-08-07

    申请号:US11884234

    申请日:2006-02-14

    申请人: Masaru Hori Mineo Hiramatsu Hiroyuki Kano Satoshi Yoshida Yukihisa Katayama Toru Sugiyama

    发明人: Masaru Hori Mineo Hiramatsu Hiroyuki Kano Satoshi Yoshida Yukihisa Katayama Toru Sugiyama

    IPC分类号: H01M4/96 H01M4/88

    CPC分类号: H01M8/0234 H01M4/8817 H01M4/96 H01M2008/1095 Y02P70/56

    摘要: A fuel cell structure comprises a diffusion layer and/or a catalyst layer which are made of a carbonaceous porous material having a nano-size structure, such as carbon nanowall (CNW). A method of manufacturing the structure is also disclosed. The structure and method simplify the process of manufacturing a fuel cell electrode comprised of an electrode catalyst layer and a gas diffusion layer. The electrical conductivity of the catalyst layer is increased and the diffusion efficiency of the diffusion layer is improved, whereby the electricity generation efficiency of the fuel cell can be improved.

    摘要翻译: 燃料电池结构包括由具有纳米尺寸结构的碳质多孔材料(例如碳纳米壁(CNW))制成的扩散层和/或催化剂层。 还公开了一种制造该结构的方法。 该结构和方法简化了制造由电极催化剂层和气体扩散层组成的燃料电池电极的工艺。 催化剂层的导电性提高,扩散层的扩散效率提高,能够提高燃料电池的发电效率。

    Fuel cell structure and method of manufacturing same
    3.
    发明授权
    Fuel cell structure and method of manufacturing same 有权
    燃料电池结构及其制造方法

    公开(公告)号:US08110248B2

    公开(公告)日:2012-02-07

    申请号:US11884234

    申请日:2006-02-14

    申请人: Masaru Hori Mineo Hiramatsu Hiroyuki Kano Satoshi Yoshida Yukihisa Katayama Toru Sugiyama

    发明人: Masaru Hori Mineo Hiramatsu Hiroyuki Kano Satoshi Yoshida Yukihisa Katayama Toru Sugiyama

    IPC分类号: H01M4/96

    CPC分类号: H01M8/0234 H01M4/8817 H01M4/96 H01M2008/1095 Y02P70/56

    摘要: A fuel cell structure comprises a diffusion layer and/or a catalyst layer which are made of a carbonaceous porous material having a nano-size structure, such as carbon nanowall (CNW). A method of manufacturing the structure is also disclosed. The structure and method simplify the process of manufacturing a fuel cell electrode comprised of an electrode catalyst layer and a gas diffusion layer. The electrical conductivity of the catalyst layer is increased and the diffusion efficiency of the diffusion layer is improved, whereby the electricity generation efficiency of the fuel cell can be improved.

    摘要翻译: 燃料电池结构包括由具有纳米尺寸结构的碳质多孔材料(例如碳纳米壁(CNW))制成的扩散层和/或催化剂层。 还公开了一种制造该结构的方法。 该结构和方法简化了制造由电极催化剂层和气体扩散层组成的燃料电池电极的工艺。 催化剂层的导电性提高,扩散层的扩散效率提高,能够提高燃料电池的发电效率。

    Fuel cell separator with a vapor-phase grown carbon-based porous material of nanosize structure
    4.
    发明授权
    Fuel cell separator with a vapor-phase grown carbon-based porous material of nanosize structure 有权
    具有纳米级结构的气相生长碳基多孔材料的燃料电池分离器

    公开(公告)号:US07923170B2

    公开(公告)日:2011-04-12

    申请号:US11659104

    申请日:2005-09-21

    申请人: Masaru Hori Mineo Hiramatsu Hiroyuki Kano Yukihisa Katayama Toru Sugiyama Satoshi Yoshida

    发明人: Masaru Hori Mineo Hiramatsu Hiroyuki Kano Yukihisa Katayama Toru Sugiyama Satoshi Yoshida

    IPC分类号: H01M4/64

    CPC分类号: H01M8/0245 H01M8/0228 H01M8/0234 H01M8/0252 H01M8/0258 H01M8/0263 H01M8/1007 Y02P70/56 Y10S977/948

    摘要: The degree of freedom in the shape of channels in a separator is increased, enabling an optimum gas channel to be designed, enabling a sufficient supply of gas below gas channel ribs, and improving cell performance through the reduction in diffusion polarization. Drainage property is also improved and flooding is prevented, thereby reducing diffusion polarization and improving cell performance. Cell performance is also improved through the reduction of contact resistance. A fuel cell separator comprises a separator substrate on which gas channel ribs are formed through vapor-phase growth of a carbon-based porous material with a nanosize structure. An electrode structure for a fuel cell, methods of manufacturing the separator and the fuel cell, and a solid polymer fuel cell comprising the electrode structure.

    摘要翻译: 分离器中的通道形状的自由度增加,能够设计最佳的气体通道,从而能够充分地供应低于气体通道肋的气体,并且通过减小扩散极化来改善电池的性能。 排水性能也得到改善,防止溢流,从而降低扩散极化,提高电池性能。 通过降低接触电阻也提高了电池性能。 一种燃料电池隔板包括隔板基板,气体通道肋通过具有纳米尺寸结构的碳基多孔材料的气相生长而形成。 用于燃料电池的电极结构,制造隔膜和燃料电池的方法以及包括电极结构的固体聚合物燃料电池。

    CARBON NANOWALL WITH CONTROLLED STRUCTURE AND METHOD FOR CONTROLLING CARBON NANOWALL STRUCTURE
    7.
    发明申请
    CARBON NANOWALL WITH CONTROLLED STRUCTURE AND METHOD FOR CONTROLLING CARBON NANOWALL STRUCTURE 审中-公开
    碳纳米管具有控制结构和控制碳纳米结构的方法

    公开(公告)号:US20100009242A1

    公开(公告)日:2010-01-14

    申请号:US12374844

    申请日:2007-07-25

    申请人: Masaru Hori Mineo Hiramatsu Hiroyuki Kano Toru Sugiyama Yuichiro Hama

    发明人: Masaru Hori Mineo Hiramatsu Hiroyuki Kano Toru Sugiyama Yuichiro Hama

    IPC分类号: H01M4/86 C01B31/02 B01J32/00

    CPC分类号: B01J21/185 B82Y30/00 B82Y40/00 C01B32/18 H01M4/9083 H01M4/926 Y10T428/24355

    摘要: Provided is a method for controlling a carbon nanowall (CNW) structure having improved corrosion resistance against high potential by varying the spacing between the carbon nanowall (CNW) walls so that its surface area and crystallinity are controlled. Also provided is a carbon nanowall (CNW) with a high surface arca and a carbon nanowall (CNW) with a high crystallinity, both of which have a controlled structure. According to the present invention, provided are: (1) a carbon nanowall, characterized by having a wall surface area of 50 cm2/cm2-substrate·μm or more; (2) a carbon nanowall, characterized by having a crystallinity such that the D band half value width in the Raman spectrum measured with an irradiation laser wavelength of 514.5 nm is 85 cm−1 or less: and (3) a carbon nanowall, characterized by having not only a wall surface area of 50 cm2/cm2-substrate·μm or more but also a crystallinity such that the D-band half value width in the Raman spectrum measured with an irradiation laser wavelength of 14.5 nm is 85 cm−1 or less.

    摘要翻译: 提供了一种通过改变碳纳米壁(CNW)壁之间的间距来控制其表面积和结晶度来控制具有改善的高电位耐腐蚀性的碳纳米壁(CNW)结构的方法。 还提供具有高表面积的碳纳米壁(CNW)和具有高结晶度的碳纳米壁(CNW),两者都具有受控的结构。 根据本发明,提供:(1)一种碳纳米壁,其特征在于,具有50cm 2 / cm 2以上的基板的壁面积以上; (2)碳纳米壁,其特征在于具有结晶度使得以514.5nm的照射激光波长测量的拉曼光谱中的D带半值宽度为85cm -1以下:(3)碳纳米壁,其特征在于, 通过不仅具有50cm 2 / cm 2以上的壁面积等于或大于50的壁面积,而且结晶度使得以14.5nm的照射激光波长测量的拉曼光谱中的D带半值宽度为85cm -1 或更少。

    Battery manufacturing method, battery, pre-welding positive plate manufacturing method, and pre-welding positive plate
    9.
    发明授权
    Battery manufacturing method, battery, pre-welding positive plate manufacturing method, and pre-welding positive plate 有权
    电池制造方法,电池,预焊正极板制造方法和预焊正极板

    公开(公告)号:US08765300B2

    公开(公告)日:2014-07-01

    申请号:US13217570

    申请日:2011-08-25

    申请人: Hideo Nakamura Yoshinori Shibata Toru Sugiyama Takahiro Kuhara Yoshinori Nishio Takeshi Kotani Satoshi Yoneyama

    发明人: Hideo Nakamura Yoshinori Shibata Toru Sugiyama Takahiro Kuhara Yoshinori Nishio Takeshi Kotani Satoshi Yoneyama

    IPC分类号: H01M4/13 H01M4/64

    CPC分类号: H01M10/049 H01M4/70 H01M4/808 H01M10/0413 H01M10/345

    摘要: Provided is a method of manufacturing a battery having an electrode module including: a positive plate having a cathode collector portion formed by attaching a lead member to a cathode substrate made of a foamed metal plate; and a cathode collector plate welded to the cathode collector portion. The method includes: a pre-welding positive plate forming process of forming a pre-welding positive plate, which is the positive plate before welding, such that the pre-welding positive plate has a projection projecting from a pre-welding cathode collector portion, which is the cathode collector portion before welding; and a welding process of melting a pre-welding cathode collector plate to weld it to the projection. In the pre-welding positive plate forming process, the projection is formed into such a shape that the condition that S≦1.3W is satisfied, where W and S represent the width and the circumferential length of the projection, respectively.

    摘要翻译: 本发明提供一种具有电极模块的电池的制造方法,所述电池模块包括:正极板,具有通过将引线部件附接到由发泡金属板制成的阴极基板而形成的阴极集电部; 以及阴极收集板,其与阴极收集部焊接。 该方法包括:预焊正极板形成工艺,其形成预焊正极板,其为焊接前的正极板,使得预焊正极板具有从预焊阴极集电器部分突出的突起, 其为焊接前的阴极集电体部分; 以及熔化预焊阴极集电板以将其焊接到突起的焊接工艺。 在预焊正极板形成工序中,突起形成为满足S< l1; 1.3W的条件,其中W和S分别表示突起的宽度和周长。

    Purge step-controlled sequence of processing semiconductor wafers
    10.
    发明授权
    Purge step-controlled sequence of processing semiconductor wafers 有权
    冲洗半导体晶片的步进控制序列

    公开(公告)号:US07972961B2

    公开(公告)日:2011-07-05

    申请号:US12248741

    申请日:2008-10-09

    申请人: Toru Sugiyama Ryu Nakano

    发明人: Toru Sugiyama Ryu Nakano

    IPC分类号: H01L21/44 H01L21/20 C23C16/00

    CPC分类号: C23C16/4405 H01J37/32743

    摘要: A method of processing semiconductor substrates includes: depositing a film on a substrate in a reaction chamber; evacuating the reaction chamber without purging the reaction chamber; opening a gate valve and replacing the substrate with a next substrate via the transfer chamber wherein the pressure of the transfer chamber is controlled to be higher than that of the reaction chamber before and while the gate valve is opened; repeating the above steps and removing the substrate from the reaction chamber; and purging and evacuating the reaction chamber, and cleaning the reaction chamber with a cleaning gas.

    摘要翻译: 一种处理半导体衬底的方法包括:在反应室中的衬底上沉积膜; 抽空反应室而不清洗反应室; 打开闸阀并经由传送室用下一个基板代替基板,其中传送室的压力在闸阀打开之前和之后被控制为高于反应室的压力; 重复上述步骤并从反应室中除去基材; 并清洗并抽空反应室,并用清洁气体清洗反应室。