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    • 3. 发明授权
    • Bio-molecules detecting apparatus using electromagnetic induction and detecting method using the same
    • 使用电磁感应的生物分子检测装置及使用其的检测方法
    • US07785864B2
    • 2010-08-31
    • US11184894
    • 2005-07-20
    • Jung-ho KangSung-hee LeeYoung-il KimMoon-chul LeeTae-sik Park
    • Jung-ho KangSung-hee LeeYoung-il KimMoon-chul LeeTae-sik Park
    • C12M1/34C12M3/00C12M1/00
    • G01N27/3276G01N29/036
    • Provided are a bio-molecules detecting apparatus using electromagnetic induction and a detecting method using the same. An exemplary apparatus includes: a cantilever of which one end is fixed and the other end is set up to be movable; a first metal formed on a plane of the cantilever and receiving a signal; a bio chip formed in the first metal and having probe biomolecules for searching particular information on a sample to be analyzed; an electromagnetic inductor configured to form a magnetic field; a signal source for applying the signal to the first metal; and a detector for measuring signal values of the first metal before and after the biomolecule is coupled with the sample. The apparatus detects the bio-couple by converting a change in mechanical properties before and after the bio-coupling based on electromagnetic induction to detect a bio-couple.
    • 提供了使用电磁感应的生物分子检测装置和使用其的检测方法。 一种示例性装置包括:其一端被固定并且另一端被设置为可移动的悬臂; 形成在悬臂的平面上并接收信号的第一金属; 在第一金属中形成的生物芯片,并具有用于搜索待分析样品的特定信息的探针生物分子; 构造成形成磁场的电磁感应器; 用于将信号施加到第一金属的信号源; 以及用于测量生物分子之前和之后第一金属的信号值与检测器结合的检测器。 该装置通过基于电磁感应转换生物耦合之前和之后的机械特性的变化来检测生物耦合,以检测生物耦合。
    • 5. 发明授权
    • Biomolecule chip and fabrication method thereof
    • 生物分子芯片及其制造方法
    • US07741105B2
    • 2010-06-22
    • US11329240
    • 2006-01-10
    • Young-il KimMoon-chul LeeJung-ho KangTae-sik Park
    • Young-il KimMoon-chul LeeJung-ho KangTae-sik Park
    • B81B7/04
    • G01N33/544
    • Disclosed is a biomolecule chip and a fabrication method thereof. The biomolecule chip of the invention includes: a substrate; an insulating layer formed on the substrate; an adhesive layer formed on the insulating layer; a seed layer formed on the adhesive layer; an opening patterned at a predetermined location within the adhesive layer, the seed layer and the electroplating layer; and a biomolecule immobilized layer formed on the electroplating layer, the electroplating layer comprising a plasma-treated electroplating layer prior to the formation of the biomolecule immobilized layer. Accordingly, the immobilization of biomolecules onto the surface can be done more effectively by modifying the surface of the substrate in favor of biomolecules.
    • 公开了一种生物分子芯片及其制造方法。 本发明的生物分子芯片包括:基材; 形成在所述基板上的绝缘层; 形成在所述绝缘层上的粘合剂层; 形成在粘合剂层上的种子层; 在粘合剂层内的预定位置图案化的开口,种子层和电镀层; 以及形成在所述电镀层上的生物分子固定层,所述电镀层在形成所述生物分子固定化层之前包含等离子体处理的电镀层。 因此,通过改变基质表面有利于生物分子,可以更有效地进行生物分子固定在表面上。
    • 6. 发明授权
    • Electron emission display
    • 电子发射显示
    • US07622857B2
    • 2009-11-24
    • US11264739
    • 2005-10-31
    • Seung Joon YooJong Sick ChoiZin Min ParkSoo Joung LeeJung Ho KangSu Kyung Lee
    • Seung Joon YooJong Sick ChoiZin Min ParkSoo Joung LeeJung Ho KangSu Kyung Lee
    • H01J1/62H01J63/04
    • H01J31/123
    • An electron emission display including a first substrate having at least one electron emission device and a second substrate opposite the first substrate. The second substrate is formed with an effective region and a non-effective region. The effective region includes a fluorescent layer for emitting light by collision with electrons emitted from the electron emission device. The non-effective region includes a region in which a light-shielding layer has a transparent conductive layer and a metal layer. The transparent conductive layer is formed in the effective region where the fluorescent layer is absent. The second substrate improves the brightness of light emitted from the fluorescent layer and prevents a power supply layer, to which a high voltage is applied, from being damaged, because the transparent conductive layer is not formed under the effective region.
    • 一种电子发射显示器,包括具有至少一个电子发射器件的第一衬底和与第一衬底相对的第二衬底。 第二衬底形成有效区域和非有效区域。 有效区域包括用于通过与从电子发射装置发射的电子碰撞而发射光的荧光层。 非有效区域包括其中遮光层具有透明导电层和金属层的区域。 透明导电层形成在荧光层不存在的有效区域中。 由于透明导电层没有形成在有效区域之下,所以第二衬底提高了从荧光层发出的光的亮度,并且防止施加高电压的电源层被损坏。
    • 9. 发明授权
    • Field emission display having emitter arrangement structure capable of enhancing electron emission characteristics
    • 具有能够增强电子发射特性的发射极配置结构的场发射显示
    • US07301268B2
    • 2007-11-27
    • US10754669
    • 2004-01-12
    • Jung-Ho KangYong-Soo ChoiSung-Hwan Jin
    • Jung-Ho KangYong-Soo ChoiSung-Hwan Jin
    • H01J1/30H01J1/304H01J19/02
    • H01J31/127H01J2201/304H01J2329/00
    • A field emission display includes a first substrate, at least one gate electrode formed on the first substrate, cathode electrodes formed on the first substrate, an insulation layer formed between the at least one gate electrode and the cathode electrodes, emitters electrically contacting the cathode electrodes, and formed in pixel regions of the first substrate, counter electrodes electrically connected to the at least one gate electrode and provided such that the counter electrodes and emitters have a first predetermined gap therebetween, a second substrate provided opposing the first substrate with a second predetermined gap therebetween, wherein emitter-receiving sections are provided in the cathode electrodes, dividers are formed between the emitter-receiving sections, the emitters are electrically contacted with an edge of the cathode electrodes corresponding to a shape of the emitter-receiving sections, and at least a part of each of the counter electrodes is provided within the corresponding emitter-receiving sections.
    • 场致发射显示器包括第一衬底,形成在第一衬底上的至少一个栅极电极,形成在第一衬底上的阴极电极,形成在至少一个栅极电极和阴极电极之间的绝缘层,发射体电接触阴极电极 并且形成在所述第一基板的像素区域中,与所述至少一个栅电极电连接的相对电极,并且被设置成使得所述对置电极和发射体之间具有第一预定间隙;第二基板,设置成与所述第一基板相对, 间隙,其中发射极接收部分设置在阴极电极中,在发射体接收部分之间形成分隔部,发射体与对应于发射体接收部分的形状的阴极电极的边缘电接触,并且在 每个对电极的至少一部分设置在其内 相应的发射器接收部分。
    • 10. 发明申请
    • ELECTRON EMISSION DISPLAY
    • 电子发射显示
    • US20070247056A1
    • 2007-10-25
    • US11689258
    • 2007-03-21
    • Su-Kyung LeeSeung-Joon YooZin-Min ParkJung-Ho KangWon-Il Lee
    • Su-Kyung LeeSeung-Joon YooZin-Min ParkJung-Ho KangWon-Il Lee
    • H01J1/62
    • H01J29/085
    • An electron emission display is provided including first and second substrates facing each other. The second substrate has a plurality of pixel regions defined thereon. A plurality of electron emission elements are disposed on the first substrate. A phosphor screen including phosphor and black layers are formed on a surface of the second substrate. An anode electrode formed of metal is located on surfaces of the phosphor and black layers. The anode electrode includes a spaced portion corresponding to the phosphor layers and spaced apart from the phosphor screen, and includes contact portions contacting the phosphor screen, and satisfies the condition 0.05≦B/A≦0.8, where A indicates an area of one of said pixel regions defined on the second substrate and B denotes an area occupied by one of the contact portions in the one of said pixel regions.
    • 提供了包括彼此面对的第一和第二基板的电子发射显示器。 第二基板具有限定在其上的多个像素区域。 多个电子发射元件设置在第一衬底上。 在第二基板的表面上形成包括磷光体和黑色层的荧光屏。 由金属形成的阳极电极位于荧光体和黑色层的表面上。 阳极电极包括对应于荧光体层并与荧光屏间隔开的间隔部分,并且包括接触荧光屏的接触部分,并且满足条件0.05 <= B / A <= 0.8,其中A表示一个 限定在所述第二基板上的所述像素区域,B表示所述像素区域中的一个中的一个接触部分所占据的面积。