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    • 1. 发明专利
    • Laser-activated nano-thermolysis of cell
    • 激光激活的细胞纳米热解
    • JP2014039848A
    • 2014-03-06
    • JP2013205709
    • 2013-09-30
    • Alexander Oraevskyオラエフスキー,アレクサンダーORAEVSKY, AlexanderDmitri Lapotkoラポトコ,ドミトリLAPOTKO, Dmitri
    • ORAEVSKY ALEXANDERLAPOTKO DMITRI
    • A61N5/00A61B18/20A61N5/06
    • B82Y5/00A61K41/0052A61K47/6873A61K47/6891A61K47/6923A61K47/6929Y10S977/70Y10S977/702
    • PROBLEM TO BE SOLVED: To provide a method and a system of a laser-activated nano-thermolysis cell elimination technology (LANTCET) using a metallic nanoparticle for a laser therapy of cancer.SOLUTION: A system for increasing a selective and therapeutic thermomechanical damage to a cancer cell, the system including a nano fine particle source connected to a cell chamber storing a medium containing the cancer cell with a flow path, the nano fine particle source being adopted to specifically target the cancer cell, an optical chamber connected to the cell chamber with a flow path, the optical chamber being adopted to receive a targeted cancer cell, an electromagnetic radiation pulse source set to emit a spectrum at a peak wavelength near a peak absorption wavelength of a nano fine particle and to be directed to the targeted cancer cell in the optical chamber, and means connected to the cell chamber with a flow path, the means being to select a cell damaged by a thermomechanical action resulted from absorption of electromagnetic radiation emitted at the peak wavelength, wherein each nano fine particle configures an aggregate of the nano particle.
    • 要解决的问题:提供使用金属纳米颗粒进行激光治疗癌症的激光活化纳米热解酶消除技术(LANTCET)的方法和系统。解决方案:用于增加选择性和治疗性热机械损伤的系统 一种癌细胞,该系统包括连接到存储含有具有流路的癌细胞的培养基的细胞室的纳米细颗粒源,纳米微粒源被用于特异性靶向癌细胞,连接到细胞的光学室 具有流路的腔室,用于接收目标癌细胞的光学室,设置为在纳米细颗粒的峰值吸收波长附近的峰值波长处发射光谱并且被引导到靶向癌症的电磁辐射脉冲源 光学室中的电池,以及连接到具有流动路径的电池室的装置,所述装置是选择由热机械动作res损坏的电池 其特征在于,吸收在峰值波长处发射的电磁辐射,其中每个纳米细颗粒构成纳米颗粒的聚集体。
    • 4. 发明专利
    • Reduction of graphene oxide to graphene in high boiling point solvent
    • 在高沸点溶剂中还原石墨氧化物至石墨
    • JP2010222245A
    • 2010-10-07
    • JP2010066866
    • 2010-03-23
    • Northrop Grumman Systems Corpノースロップ グラマン システムズ コーポレーション
    • GILJE S SCOTT
    • C01B31/02
    • C01B31/0446B82Y30/00B82Y40/00C01B32/184C01B32/192Y10S977/70Y10S977/734Y10S977/755Y10S977/842Y10S977/895Y10S977/90
    • PROBLEM TO BE SOLVED: To provide a method for producing graphene comprising a step of forming water dispersion of graphene oxide.
      SOLUTION: The method for producing graphene comprises: a step of adding a solvent to the dispersion to form a solution; and a step of controlling the temperature of the solution to form graphene. The step of dispersing graphene oxide into water comprises a sonic treatment. The dispersion comprises the graphene oxide and water in a ratio of approximately one milligram of graphene oxide to approximately one milliliter of water. The solvent is a water-miscible solvent. The water-miscible solvent is at least one of n-methylpyrrolidone, ethylene glycol, glycerin, dimethylpyrrolidone, acetone, tetrahydrofuran, acetonitrile, dimethylformamide, an amine and an alcohol. The step of adding the solvent to the dispersion comprises adding an amount of the solvent approximately equivalent to the amount of the dispersion.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 待解决的问题:提供一种生产石墨烯的方法,包括形成氧化石墨烯的水分散体的步骤。 解决方案:用于生产石墨烯的方法包括:向分散体中加入溶剂以形成溶液的步骤; 以及控制溶液的温度以形成石墨烯的步骤。 将氧化石墨烯分散在水中的步骤包括声处理。 分散体包含石墨烯氧化物和约1毫克氧化石墨烯与约1毫升水的比例的水。 溶剂是与水可混溶的溶剂。 水混溶性溶剂是正甲基吡咯烷酮,乙二醇,甘油,二甲基吡咯烷酮,丙酮,四氢呋喃,乙腈,二甲基甲酰胺,胺和醇中的至少一种。 向分散体中加入溶剂的步骤包括加入大约相当于分散体量的溶剂量。 版权所有(C)2011,JPO&INPIT