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    • 5. 发明申请
    • METHOD OF MANUFACTURING A CARBON NANOTUBE DEVICE
    • 制备碳纳米管装置的方法
    • US20060123628A1
    • 2006-06-15
    • US10351544
    • 2003-01-27
    • Kazunaga HoriuchiMasaaki ShimizuNobuyuki AokiYuichi Ochiai
    • Kazunaga HoriuchiMasaaki ShimizuNobuyuki AokiYuichi Ochiai
    • H01R43/00
    • H01L51/105B82Y10/00H01L51/0021H01L51/0048Y10S977/869Y10S977/873Y10T29/4902Y10T29/49099Y10T29/49117Y10T29/49174
    • A method of manufacturing a carbon nanotube device including an inner electrode, having connecting step, connecting a carbon nanotube to the inner electrode, wherein the connecting step comprises: attaching a conductor to an end or periphery thereof of a needle-shaped or rod-shaped carrying electrode; arranging the carbon nanotube in contact or close to a predetermined connection part of the inner electrode; approaching the end of the carrying electrode on which the conductor is carried to the connection part; and transferring the conductor carried on the carrying electrode to the connection part or periphery thereof to connect the carbon nanotube to the inner electrode. A carbon nanotube device manufactured by this method includes a conductive particle which electrically connects the inner electrode and the carbon nanotube. Also disclosed is a carbon nanotube device having at least an inner electrode and a carbon nanotube electrically connected thereto, including a conductive particle that electrically connects the inner electrode to the carbon nanotube therethrough.
    • 一种制造碳纳米管装置的方法,其包括具有连接步骤的内部电极,将碳纳米管连接到所述内部电极,其中所述连接步骤包括:将导体附接到针状或棒状的端部或周边 承载电极; 将碳纳米管布置成与内部电极的预定连接部分接触或接近; 接近承载电极的端部,导体承载在其上的连接部分; 并且将承载在承载电极上的导体转移到其连接部分或周边以将碳纳米管连接到内部电极。 通过该方法制造的碳纳米管装置包括将内部电极和碳纳米管电连接的导电性粒子。 还公开了至少具有与其电连接的内部电极和碳纳米管的碳纳米管装置,其包括将内部电极与碳纳米管电连接的导电性粒子。
    • 7. 发明授权
    • Heat-sensitive recording material and method for producing same
    • 热敏记录材料及其制造方法
    • US08513160B2
    • 2013-08-20
    • US13254045
    • 2010-02-16
    • Toshiro HadaMasaaki ShimizuYasuyuki AokiNaotaka EndoHiroyuki OhhashiTomokazu Ishiguro
    • Toshiro HadaMasaaki ShimizuYasuyuki AokiNaotaka EndoHiroyuki OhhashiTomokazu Ishiguro
    • B41M5/42
    • B41M5/42B41M5/426B41M5/44B41M2205/04B41M2205/38B41M2205/40
    • The present invention provides a heat-sensitive recording material that has high gloss and excellent absorption and scratch off properties against sebum soiling; and a method for producing the heat-sensitive recording material. More specifically, the present invention provides a heat-sensitive recording material containing a heat-sensitive recording layer, an intermediate layer, and a protective layer, which are sequentially formed in this order on a support. The heat-sensitive recording layer contains a leuco dye and a developer; the intermediate layer contains an aqueous adhesive; and the protective layer is cured by irradiation of an ultraviolet- or electron-beam-curable resin composition with ultraviolet light or an electron beam. The heat-sensitive recording material additionally contains, on the protective layer, an uppermost layer which contains an aqueous adhesive and a pigment having a mean particle diameter of not more than 100 nm. The uppermost layer-side surface of the heat-sensitive recording material has a gloss at 75° of not less than 90% and a gloss at 20° of not less than 35% in accordance with JIS P 8142-1993. The present invention further provides a method for producing the heat-sensitive recording material.
    • 本发明提供了一种热敏记录材料,其具有高的光泽度和对皮脂污染的优异的吸收和刮擦性能; 以及制造该热敏记录材料的方法。 更具体地说,本发明提供一种含有热敏记录层,中间层和保护层的热敏记录材料,它们依次在支持体上形成。 热敏记录层含有无色染料和显影剂; 中间层含有水性粘合剂; 通过用紫外线或电子束照射紫外线或电子束固化树脂组合物来固化保护层。 热敏记录材料在保护层上另外含有含有水性粘合剂和平均粒径不大于100nm的颜料的最上层。 根据JIS P 8142-1993,热敏记录材料的最上层侧表面的75°光泽度不小于90%,20度光泽度不低于35%。 本发明还提供一种制造热敏记录材料的方法。
    • 8. 发明授权
    • Method for managing storage, program and system for the same
    • 用于管理存储,程序和系统的方法
    • US08447997B2
    • 2013-05-21
    • US13211586
    • 2011-08-17
    • Takashi YasuiMasaaki Shimizu
    • Takashi YasuiMasaaki Shimizu
    • G06F9/30
    • G06F3/0625G06F1/3221G06F1/3268G06F3/0634G06F3/0653G06F3/0689Y02D10/154
    • A system including plural storage devices provides a technique for controlling storage devices in which files are located by a file system, and turning on or off the storage devices based on prediction of the start or end of access to the files. A program that manages power to the storage devices and data access to the storage devices via the files includes means or functions for allocating a storage device as an area in which a file is located, for selecting a storage device in which a file is located, for predicting that access to a file is started for commanding turning on power to a storage device based on the prediction that access to a file is started, for predicting that access to a file terminates, and for commanding turning off power to a storage device based on the prediction that access to a file terminates.
    • 包括多个存储装置的系统提供了一种用于控制文件由文件系统定位的存储装置的技术,并且基于对文件的访问的开始或结束的预测来打开或关闭存储装置。 管理存储设备的电力和经由文件对存储设备的数据访问的程序包括用于将存储设备分配为文件所在的区域的装置或功能,用于选择文件所在的存储设备, 为了预测对文件的访问是基于对文件的访问的预测开始来指示对存储设备的电源的启动,用于预测对文件的访问终止,并且用于指示关闭对存储设备的电源 根据对文件的访问终止的预测。