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    • 2. 发明授权
    • Coated nanotube surface signal probe and method of attaching nanotube to probe holder
    • 涂层纳米管表面信号探针和将纳米管附着到探头支架的方法
    • US06800865B2
    • 2004-10-05
    • US10326472
    • 2002-12-20
    • Yoshikazu NakayamaAkio HaradaSeiji Akita
    • Yoshikazu NakayamaAkio HaradaSeiji Akita
    • G21G500
    • G01Q60/16G01Q60/38G01Q60/54G01Q70/12Y10S977/869Y10S977/873Y10S977/876
    • The coated nanotube surface signal probe constructed from a nanotube, a holder which holds the nanotube, a coating film fastening a base end portion of the nanotube to a surface of the holder by way of adhering the base end portion on the surface of holder in a range of a base end portion length with an electric contact state and covering a specified region including the base end portion with the coating film maintaining the electric contact state between the nanotube and the holder, a tip end portion of the nanotube being caused to protrude from the holder; and the tip end portion is used as a probe needle so as to scan surface signals. The coated nanotube surface signal probe can be used as a probe in AFM (Atomic Force Microscope), STM (Scanning Tunneling Microscope) other SPM (Scanning Probe Microscope).
    • 由纳米管构成的涂覆的纳米管表面信号探针,保持纳米管的保持器,通过将基座端部粘附在保持器的表面上的涂膜将纳米管的基端部固定在保持器的表面上 具有电接触状态的基端部长度的范围,并且覆盖包括基端部的规定区域,所述涂膜保持纳米管和保持器之间的电接触状态,使纳米管的前端部从 持有人 并且使用尖端部作为探针,以扫描表面信号。 涂覆的纳米管表面信号探针可用作AFM(原子力显微镜),STM(扫描隧道显微镜)其他SPM(扫描探针显微镜)中的探针。
    • 5. 发明授权
    • Nanotweezers and nanomanipulator
    • 纳米技术人员和纳米机器人
    • US06805390B2
    • 2004-10-19
    • US10406844
    • 2003-04-04
    • Yoshikazu NakayamaSeiji AkitaAkio HaradaTakashi Okawa
    • Yoshikazu NakayamaSeiji AkitaAkio HaradaTakashi Okawa
    • B25J1512
    • B25J7/00B81B2201/032B81B2201/12B81B2203/0118B81C99/002B82B3/00G01Q80/00Y10S977/732Y10S977/734Y10S977/742Y10S977/778Y10S977/78Y10S977/837Y10S977/842Y10S977/858Y10S977/863Y10S977/875Y10S977/876Y10S977/89Y10S977/901Y10S977/962
    • To provide nanotweezers and a nanomanipulator which allow great miniaturization of the component and are capable of gripping various types of nano-substances such as insulators, semiconductors and conductors and of gripping nano-substances of various shapes. Electrostatic nanotweezers 2 are characterized in that the nanotweezers 2 are comprised of a plurality of nanotubes whose base end portions are fastened to a holder 6 so that the nanotubes protrude from the holder 6, coating films which insulate and cover the surfaces of the nanotubes, and lead wires 10, 10 which are connected to two of the nanotubes 8, 9; and the tip ends of the two nanotubes are freely opened and closed by means of an electrostatic attractive force generated by applying a voltage across these lead wires. Furthermore, by way of forming a piezo-electric film 32 on the surface of the nanotube 9, and the tip ends of the nanotubes are freely opened and closed by expanding and contracting the piezo-electric film, thus allowing any desired nano-substances to be handled regardless of whether the nano-substances are insulators, semiconductors or conductors. Furthermore, if by way of designing three nanotubes so as to be freely opened and closed by an electrostatic system, nano-substances of various shapes such as spherical, rod-form, etc. can be handled. Moreover, a nanomanipulator that is constructed by combining the nanotweezers with a three-dimensional driving mechanism facilitates the gripping, moving and releasing of nano-substances.
    • 提供纳米扫描器和纳米管操纵器,其允许部件的极小化,并且能够夹持各种类型的纳米物质,例如绝缘体,半导体和导体,并且夹持各种形状的纳米物质。静电纳米尺寸器2的特征在于纳米晶体管 2由多个纳米管构成,其基端部固定在支架6上,使得纳米管从支架6突出,绝缘并覆盖纳米管的表面的涂膜和与导线10,10连接的导线10,10 两个纳米管8,9; 并且通过在这些引线上施加电压而产生的静电吸引力自由地打开和闭合两个纳米管的末端。 此外,通过在纳米管9的表面上形成压电膜32,通过使压电膜膨胀收缩来使纳米管的前端自由地开闭,从而使任何所需的纳米物质 无论纳米物质是绝缘体,半导体还是导体,都要进行处理。 此外,如果通过设计三个纳米管以通过静电系统自由地打开和关闭,则可以处理诸如球形,棒状等各种形状的纳米物质。 此外,通过将纳米技术人员与三维驱动机构组合而构成的纳米机械手有利于纳米物质的夹持,移动和释放。
    • 7. 发明授权
    • Sharpening method of nanotubes
    • 纳米管的锐化方法
    • US06777637B2
    • 2004-08-17
    • US10391386
    • 2003-03-18
    • Yoshikazu NakayamaSeiji AkitaAkio Harada
    • Yoshikazu NakayamaSeiji AkitaAkio Harada
    • B23K1122
    • B82Y40/00B82Y10/00B82Y30/00C01B32/168G11B5/1871
    • A method for sharpening a nanotube including the steps of: connecting the base end portion of a nanotube to an electrode with the tip end portion of the nanotube protruded from the electrode; connecting the tip end portion of the nanotube to another electrode; applying a voltage between the electrodes so as to cause an electric current to flow in the middle portion of the nanotube which is located between the two electrodes; evaporating constituent atoms of the nanotube layer by layer from a evaporation starting region, which is located in the middle region of the nanotube (and can be a crystal defect region, or a curved portion), by the heat generated by the electric current, thus reducing the diameter of the evaporation starting region; and cutting the evaporation starting region that has the reduced diameter, thus forming a sharpened end on the nanotube.
    • 一种用于锐化纳米管的方法,包括以下步骤:将纳米管的基端部与电极连接,其中纳米管的末端部分从电极突出; 将纳米管的前端部分连接到另一个电极; 在电极之间施加电压,使得电流在位于两个电极之间的纳米管的中间部分流动; 通过由电流产生的热量从位于纳米管的中间区域(并且可以是晶体缺陷区域或弯曲部分)的蒸发起始区域逐层蒸发纳米管层的构成原子,因此 减小蒸发起始区域的直径; 并切割具有减小的直径的蒸发起始区域,从而在纳米管上形成锋利的端部。
    • 10. 发明授权
    • Coated nanotube surface signal probe
    • 涂层纳米管表面信号探针
    • US07064341B2
    • 2006-06-20
    • US10793531
    • 2004-03-04
    • Yoshikazu NakayamaAkio HaradaSeiji Akita
    • Yoshikazu NakayamaAkio HaradaSeiji Akita
    • G21G5/00
    • G01Q60/16G01Q60/38G01Q60/54G01Q70/12Y10S977/869Y10S977/873Y10S977/876
    • The coated nanotube surface signal probe constructed from a nanotube, a holder which holds the nanotube, a coating film fastening a base end portion of the nanotube to a surface of the holder by way of adhering the base end portion on the surface of holder in a range of a base end portion length with an electric contact state and covering a specified region including the base end portion with the coating film maintaining the electric contact state between the nanotube and the holder, a tip end portion of the nanotube being caused to protrude from the holder; and the tip end portion is used as a probe needle so as to scan surface signals. The coated nanotube surface signal probe can be used as a probe in AFM (Atomic Force Microscope), STM (Scanning Tunneling Microscope) other SPM (Scanning Probe Microscope).
    • 由纳米管构成的涂覆的纳米管表面信号探针,保持纳米管的保持器,通过将基座端部粘附在保持器的表面上的涂膜将纳米管的基端部固定在保持器的表面上 具有电接触状态的基端部长度的范围,并且覆盖包括基端部的规定区域,所述涂膜保持纳米管和保持器之间的电接触状态,使纳米管的前端部从 持有人 并且使用尖端部作为探针,以扫描表面信号。 涂覆的纳米管表面信号探针可用作AFM(原子力显微镜),STM(扫描隧道显微镜)其他SPM(扫描探针显微镜)中的探针。