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    • 1. 发明申请
    • ELECTRODE FOR ELECTRIC DOUBLE LAYER CAPACITOR AND METHOD FOR PRODUCING THE SAME
    • 电双层电容器用电极及其制造方法
    • US20100259867A1
    • 2010-10-14
    • US12679470
    • 2008-09-29
    • Kenji MachidaShunzo SuematsuKenji Tamamitsu
    • Kenji MachidaShunzo SuematsuKenji Tamamitsu
    • H01G9/058B32B37/10B32B38/00B32B38/10
    • H01G11/36H01G9/016H01G9/058H01G9/155H01G11/28H01G11/70Y02E60/13Y10T29/417
    • An electrical double-layer capacitor electrode with excellent capacitance characteristics is obtained together with a manufacturing method therefor.Paper-molded sheet 2 of carbon nanotubes is integrated with etched foil 1 constituting a collector, by means of bumps and indentations 1a formed on the surface of etched foil 1 to prepare an electrical double-layer capacitor electrode. Alternatively, carbon nanotubes 4 grown around core catalyst particles on substrate 3 are integrated with etched foil 1 by means of bumps and indentations 1a formed on the surface of etched foil 1 to prepare an electrical double-layer capacitor electrode. To manufacture these electrodes, this carbon nanotube sheet 2 or substrate 3 with carbon nanotubes grown thereon is laid over bumps and indentations la on the surface of etched foil 1, and the sheet or substrate and the foil are pressed under 0.01 to 100 t/cm2 of pressure to integrate the carbon nanotubes with the etched foil.
    • 获得具有优异的电容特性的电双层电容器电极及其制造方法。 通过形成在蚀刻箔1的表面上的凸起和凹陷1a,将碳纳米管的纸模制片2与构成收集器的蚀刻箔1集成,以制备双电层电容器电极。 或者,通过形成在蚀刻箔1的表面上的凸起和凹陷1a,与蚀刻箔1一体地在基板3上的核心催化剂颗粒周围生长的碳纳米管4,以制备双电层电容器电极。 为了制造这些电极,将碳纳米管片2或其上生长有碳纳米管的基板3放置在蚀刻箔1的表面上的凸起和凹槽1a上,并且将片或基板和箔压制在0.01至100t / cm 2 的压力以将碳纳米管与蚀刻箔整合。
    • 2. 发明授权
    • Electrode for electric double layer capacitor and method for producing the same
    • 双电层电容器用电极及其制造方法
    • US08427811B2
    • 2013-04-23
    • US12679470
    • 2008-09-29
    • Kenji MachidaShunzo SuematsuKenji Tamamitsu
    • Kenji MachidaShunzo SuematsuKenji Tamamitsu
    • H01G9/00
    • H01G11/36H01G9/016H01G9/058H01G9/155H01G11/28H01G11/70Y02E60/13Y10T29/417
    • An electrical double-layer capacitor electrode with excellent capacitance characteristics is obtained together with a manufacturing method therefor. Paper-molded sheet 2 of carbon nanotubes is integrated with etched foil 1 constituting a collector, by means of bumps and indentations 1a formed on the surface of etched foil 1 to prepare an electrical double-layer capacitor electrode. Alternatively, carbon nanotubes 4 grown around core catalyst particles on substrate 3 are integrated with etched foil 1 by means of bumps and indentations 1a formed on the surface of etched foil 1 to prepare an electrical double-layer capacitor electrode. To manufacture these electrodes, this carbon nanotube sheet 2 or substrate 3 with carbon nanotubes grown thereon is laid over bumps and indentations 1a on the surface of etched foil 1, and the sheet or substrate and the foil are pressed under 0.01 to 100 t/cm2 of pressure to integrate the carbon nanotubes with the etched foil.
    • 获得具有优异的电容特性的电双层电容器电极及其制造方法。 通过形成在蚀刻箔1的表面上的凸起和凹陷1a,将碳纳米管的纸模制片2与构成收集器的蚀刻箔1集成,以制备双电层电容器电极。 或者,通过形成在蚀刻箔1的表面上的凸起和凹陷1a,与蚀刻箔1一体地在基板3上的核心催化剂颗粒周围生长的碳纳米管4,以制备双电层电容器电极。 为了制造这些电极,将碳纳米管片2或其上生长有碳纳米管的基板3放置在蚀刻箔1的表面上的凸起和凹槽1a上,并且在0.01至100t / cm 2下压制片材或基底和箔 的压力以将碳纳米管与蚀刻箔整合。
    • 6. 发明授权
    • Magnetic head device with a short auxiliary member
    • 具有短辅助构件的磁头装置
    • US06859342B1
    • 2005-02-22
    • US09504964
    • 2000-02-16
    • Yasuhiko ShinjoMorio KondoAkira NakamuraToshihiro UeharaNaoto HayashiKazutoshi MutouKenji MachidaJunji Numazawa
    • Yasuhiko ShinjoMorio KondoAkira NakamuraToshihiro UeharaNaoto HayashiKazutoshi MutouKenji MachidaJunji Numazawa
    • G11B5/39G11B5/58G11B5/187
    • G11B5/581
    • A magnetic head device having excellent sliding contact between its slider surface and magnetic tape at the time of scanning is provided. This magnetic head device has a base member, a thin-film magnetic head formed in contact with the base member and accommodated in a non-magnetic layer with the top end of a magnetic gap being exposed, and an auxiliary member which sandwiches the non-magnetic layer between the auxiliary member and the base member. On the top ends of the base member, the non-magnetic layer, and the auxiliary member, a slider surface on which magnetic tape slides is formed in the aligning direction of the base member, the non-magnetic layer, and the auxiliary member, or in a direction inclined at a predetermined angle to the aligning direction. Accordingly, the non-magnetic layer can be made thin, and the area of the non-magnetic layer on the slider surface is small. Thus, the space between the magnetic head device and the magnetic tape can be made small, and the sliding contact of the magnetic head device can be improved.
    • 提供了一种在扫描时其滑块表面和磁带之间具有优异的滑动接触的磁头装置。 该磁头装置具有:基部构件,形成为与基座构件接触并容纳在非磁性层中的薄膜磁头,其中磁隙的顶端被露出;以及辅助构件, 辅助构件和基座构件之间的磁性层。 在基部构件的顶端,非磁性层和辅助构件上,在基座构件,非磁性层和辅助构件的对准方向上形成有磁带滑动的滑块表面, 或者在相对于排列方向以预定角度倾斜的方向上。 因此,可以使非磁性层薄,并且滑块表面上的非磁性层的面积小。 因此,可以使磁头装置和磁带之间的空间小,并且可以提高磁头装置的滑动接触。
    • 10. 发明申请
    • POLYMERIZATION FLUID, METHOD FOR PRODUCING THE POLYMERIZATION FLUID, TRANSPARENT FILM AND TRANSPARENT ELECTRODE MADE FROM THE POLYMERIZATION FLUID
    • 聚合流体,聚合流体生产方法,透明膜和透明电极从聚合流体
    • US20130037411A1
    • 2013-02-14
    • US13582282
    • 2011-03-01
    • Mahito AtobeKoji NakabayashiKenji MachidaSekihiro Takeda
    • Mahito AtobeKoji NakabayashiKenji MachidaSekihiro Takeda
    • C25D9/02B32B27/00C25D7/00
    • H01G9/028C08G61/126C08G2261/1424C08G2261/3223C08G2261/44H01B1/127H01G11/56H05B33/28Y02E60/13
    • Disclosed is a polymerization fluid for electropolymerization which exhibits a reduced environmental burden and excellent economic efficiency and which can yield a conductive polymer film that has high conductivity and that is dense and highly transparent. The polymerization fluid includes at least one monomer selected from the group consisting of 3,4-disubstituted thiophenes which is dispersed as oil drops in surfactant-free water, and the polymerization fluid is transparent. The polymerization fluid can be produced by a method which includes: an addition step of adding the monomer to surfactant-free water to prepare a phase separation fluid where water and the monomer are phase-separated; a first dispersion step of irradiating the phase separation fluid with ultrasonic waves to make the monomer dispersed in the form of oil drops and thus prepare an opaque dispersion, and a second dispersion step of irradiating the opaque dispersion with ultrasonic waves having a frequency higher than that of the ultrasonic waves used in the first dispersion step to reduce the mean size of the oil drops of the monomer and thus prepare a transparent dispersion.
    • 公开了用于电聚合的聚合流体,其具有降低的环境负担和优异的经济效率,并且可以产生具有高导电性并且致密和高度透明的导电聚合物膜。 聚合流体包括至少一种选自3,4-二取代噻吩的单体,其以油滴分散在不含表面活性剂的水中,聚合流体是透明的。 聚合流体可以通过以下方法制备:将单体添加到无表面活性剂的水中以制备其中水和单体相分离的相分离流体的添加步骤; 第一分散步骤,用超声波照射相分离液,使单体以油滴的形式分散,从而制备不透明的分散体;第二分散步骤,用频率高于其的频率的超声波照射不透明分散体。 的第一分散步骤中使用的超声波,以减少单体的油滴的平均尺寸,从而制备透明分散体。