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    • 1. 发明授权
    • METHOD FOR PREPARING A GLASS FIBER HAVING HIGH STIFFNESS AND SUBSTRATE COMPRISING THE GLASS FIBER PREPARAED BY THE SAME
    • 制备具有高刚度的玻璃纤维的方法和包含由其制备的玻璃纤维的基材
    • KR100745316B1
    • 2007-07-26
    • KR20060064896
    • 2006-07-11
    • SAMSUNG ELECTRONICS CO LTD
    • CHOI SEONG JAECHOI JAE YOUNGYI DONG KEEKWON SOON JAESEOL KWANG SOOSHIN HYEON JINYOON SEON MI
    • C03B37/14C03B37/026
    • Provided are a method for preparing glass fiber to improve stiffness of the glass fiber while maintaining insulating properties and a substrate comprising the glass fiber prepared using the same. A method includes the steps of: preparing a metal or carbon precursor solution by dispersing metal or carbon precursor in a solvent; filling a plurality of channels of porous glass fiber with the metal or carbon precursor solution; and thermally decomposing the metal or carbon precursor solution in the channels to prepare metal or carbon rods. The metal precursor is selected from gallium(Ga), indium(In), germanium(Ge), tin(Sn), zirconium(Zr), titanium(Ti), magnesium(Mg), nickel(Ni), iron(Fe), tantalum(Ta) and oxides or nitrides thereof. The carbon precursor is selected from carbides, carbohydrates, aromatic compounds, carbonaceous refractories, carbon fiber and carbon nanotube.
    • 提供一种制备玻璃纤维以提高玻璃纤维的刚度同时保持绝缘性能的方法,以及包含使用其制备的玻璃纤维的基材。 一种方法包括以下步骤:通过将金属或碳前体分散在溶剂中来制备金属或碳前体溶液; 用金属或碳前体溶液填充多个通道的多孔玻璃纤维; 并在通道中热分解金属或碳前体溶液以制备金属或碳棒。 金属前体选自镓(Ga),铟(In),锗(Ge),锡(Sn),锆(Zr),钛(Ti),镁(Mg),镍(Ni) ,钽(Ta)及其氧化物或氮化物。 碳前体选自碳化物,碳水化合物,芳族化合物,碳质耐火材料,碳纤维和碳纳米管。
    • 2. 发明公开
    • DISPERSANT FOR DISPERSING CARBON NANOTUBE AND CARBON NANOTUBE COMPOSITION COMPRISING THE SAME
    • 用于分散碳纳米管和包含其的碳纳米管组合物的分散剂
    • KR20070076875A
    • 2007-07-25
    • KR20060006314
    • 2006-01-20
    • SAMSUNG ELECTRONICS CO LTD
    • KIM KWANG HEECHOI JAE YOUNGYOON SEON MICHOI HYUK SOONLEE HYO SUG
    • C08J3/02C08F20/06C08K3/04
    • C08G65/3344C08G65/329C08G65/337C08G2650/34
    • A dispersant for carbon nanotubes is provided to have a favorable structure for adsorption to a carbon nanotube surface, and thus to disperse a large amount of carbon nanotubes even if a small amount of the dispersant is used. The dispersant for carbon nanotubes consists of a linear block and a flexible block joined to the linear block. The linear block is a pi-conjugated oligoarylene of the following chemical formula 1:(AR^1-Ar^2-Ar^3)m or formula 2:Ar^1-L-Ar^2. The flexible block is polyacrylate or polyethylene oxide. In the formula 1, Ar^1, Ar^2, and Ar^3 each is an aryl group selected from the group consisting of phenyl groups, naphthyl groups, pyrenyl groups, anthryl groups, perylenyl groups, and triphenylenyl groups, and m is 1 to 4. In the formula 2, Ar^1 and Ar^2 each is an aryl group selected from the group consisting of phenyl groups, naphthyl groups, pyrenyl groups, anthryl groups, perylenyl groups, diphenylenyl groups, triphenylenyl groups, tetraphenylenyl groups, pentaphenylenyl groups, and hexaphenylenyl groups, and L is selected from the group consisting of ethylene groups, allen groups, and C1-30 heteroaromatic hydrocarbon groups.
    • 提供了用于碳纳米管的分散剂以具有用于吸附到碳纳米管表面的有利结构,并且因此即使使用少量的分散剂也分散大量的碳纳米管。 用于碳纳米管的分散剂由线性块和连接到线性块的柔性块组成。 线性嵌段是以下化学式1的π-共轭低聚亚芳基:(AR 1 -Ar 2 -Ar 3)m或式2:Ar 1-L-Ar 2。 柔性嵌段是聚丙烯酸酯或聚环氧乙烷。 在式1中,Ar 1,Ar 2和Ar 3各自为选自苯基,萘基,芘基,蒽基,苝基和三苯基的芳基,m为 在式2中,Ar 1和Ar 2各自为选自苯基,萘基,芘基,蒽基,苝基,二苯基,三苯基,四苯基等的芳基 ,五苯基苯基和六苯基,L选自亚乙基,烯基和C 1-30杂芳族烃基。
    • 3. 发明授权
    • 3D CELL CULTURE SCAFFOLD USING CARBON NANO TUBE, A MANUFECTURING PROCESS THEREOF AND A CELL CULTURE MONITORING DEVICE USING THE SAME
    • 使用碳纳米管的3D细胞培养SCAFFOT,其制造方法和使用其的细胞培养监测装置
    • KR100754406B1
    • 2007-08-27
    • KR20060050476
    • 2006-06-05
    • SAMSUNG ELECTRONICS CO LTD
    • KIM SOOK YOUNGYI DONG KEEKIM BYUNG CHULYOON SEON MI
    • C12M3/00
    • C12M25/14C12M3/00
    • A 3D cell culture scaffold by using a carbon nano tube, a manufacturing process thereof and a cell culture monitoring device by using the same scaffold are provided to culture cells in a three dimensional manner, control the size and disposition of pores in the scaffold according to the purpose, and improve monitoring convenience. The manufacturing process of the 3D cell culture scaffold(10) by using the carbon nano tube(12) comprises the steps of: accumulating a plurality of solid particles having the predetermined size and shape; dispersing carbon nano tube fragments between the solid particles by using carbon nano tube dispersion solution; and removing the solid particles from the accumulated solid particles dispersed between the carbon nano tube fragments through calcinations to form pores(13).
    • 按照三维方式向培养细胞提供使用碳纳米管的3D细胞培养支架,其制造方法和使用相同的支架的细胞培养监测装置,控制支架中孔的尺寸和布置,根据 目的,并提高监控的便利性。 通过使用碳纳米管(12)的3D细胞培养支架(10)的制造方法包括以下步骤:堆积多个具有预定尺寸和形状的固体颗粒; 通过碳纳米管分散液将碳纳米管碎片分散在固体颗粒之间; 并通过煅烧从分散在碳纳米管片段之间的积聚的固体颗粒中除去固体颗粒,形成孔(13)。