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    • 1. 发明授权
    • Nanosensor and method of manufacturing same
    • 纳米传感器及其制造方法
    • US09465007B2
    • 2016-10-11
    • US14224770
    • 2014-03-25
    • Jeo-young ShimTae-han JeonDong-ho LeeHee-jeong JeongSeong-ho Cho
    • Jeo-young ShimTae-han JeonDong-ho LeeHee-jeong JeongSeong-ho Cho
    • G01N27/447G01N33/487
    • G01N27/44791G01N33/48721
    • A nanosensor may include a substrate that has a hole formed therein, a first insulating layer that is disposed on the substrate and has a nanopore formed therein, first and second electrodes that are disposed on the first insulating layer and are spaced apart from each other, first and second electrode pads that are disposed on the first and second electrodes, respectively, and a protective layer disposed on the first and second electrode pads. A method of manufacturing a nanosensor may include forming a first insulating layer, graphene, and a metal layer on a substrate, patterning the metal layer and the graphene, forming a protective layer on a portion of the graphene and the metal layer, exposing a portion of the graphene by removing a portion of the protective layer, forming a hole in the substrate, and forming a nanopore in the first insulating layer and the graphene to be connected to the hole.
    • 纳米传感器可以包括其中形成有孔的基板,设置在基板上并且在其中形成有纳米孔的第一绝缘层,设置在第一绝缘层上并彼此间隔开的第一和第二电极, 分别设置在第一和第二电极上的第一和第二电极焊盘以及设置在第一和第二电极焊盘上的保护层。 制造纳米传感器的方法可以包括在基板上形成第一绝缘层,石墨烯和金属层,图案化金属层和石墨烯,在石墨烯和金属层的一部分上形成保护层,将部分 通过去除保护层的一部分,在衬底中形成孔,并在第一绝缘层中形成纳米孔和与孔连接的石墨烯。
    • 3. 发明申请
    • NANOSENSOR AND METHOD OF MANUFACTURING SAME
    • 纳米传感器及其制造方法
    • US20140202866A1
    • 2014-07-24
    • US14224770
    • 2014-03-25
    • Jeo-young SHIMTae-han JeonDong-ho LeeHee-jeong JeongSeong-ho Cho
    • Jeo-young SHIMTae-han JeonDong-ho LeeHee-jeong JeongSeong-ho Cho
    • G01N27/447
    • G01N27/44791G01N33/48721
    • A nanosensor may include a substrate that has a hole formed therein, a first insulating layer that is disposed on the substrate and has a nanopore formed therein, first and second electrodes that are disposed on the first insulating layer and are spaced apart from each other, first and second electrode pads that are disposed on the first and second electrodes, respectively, and a protective layer disposed on the first and second electrode pads. A method of manufacturing a nanosensor may include forming a first insulating layer, graphene, and a metal layer on a substrate, patterning the metal layer and the graphene, forming a protective layer on a portion of the graphene and the metal layer, exposing a portion of the graphene by removing a portion of the protective layer, forming a hole in the substrate, and forming a nanopore in the first insulating layer and the graphene to be connected to the hole.
    • 纳米传感器可以包括其中形成有孔的基板,设置在基板上并且在其中形成有纳米孔的第一绝缘层,设置在第一绝缘层上并彼此间隔开的第一和第二电极, 分别设置在第一和第二电极上的第一和第二电极焊盘以及设置在第一和第二电极焊盘上的保护层。 制造纳米传感器的方法可以包括在基板上形成第一绝缘层,石墨烯和金属层,图案化金属层和石墨烯,在石墨烯和金属层的一部分上形成保护层,将部分 通过去除保护层的一部分,在衬底中形成孔,并在第一绝缘层中形成纳米孔和与孔连接的石墨烯。
    • 9. 发明授权
    • Optical detecting apparatus for a bio-chip
    • 用于生物芯片的光学检测装置
    • US08246912B2
    • 2012-08-21
    • US12533560
    • 2009-07-31
    • Seong-ho Cho
    • Seong-ho Cho
    • G01N21/64G01N21/00C40B60/12G01N21/76G01J3/42
    • G01N21/6456G01N21/6428
    • An optical detecting apparatus for a bio-chip, the optical detecting apparatus including: a light source system for illuminating a bio-chip with an excitation light; a fluorescent light detecting system for detecting a fluorescent light emitted by the bio-chip; and a light path altering unit for directing the excitation light emitted by the light source system to a bio-chip and directing the fluorescent light emitted by the bio-chip to the fluorescent light detecting system, wherein a cross-sectional area of the excitation light irradiated by the light source system onto the bio-chip is greater than an area of the bio-chip, and the fluorescent light detecting system detects a fluorescent image of the entire bio-chip with a single illumination of excitation light.
    • 一种用于生物芯片的光学检测装置,所述光学检测装置包括:用激发光照射生物芯片的光源系统; 荧光检测系统,用于检测由生物芯片发射的荧光; 以及光路改变单元,用于将由光源系统发射的激发光引导到生物芯片并将生物芯片发射的荧光指向荧光检测系统,其中激发光的横截面积 由光源系统照射在生物芯片上的面积大于生物芯片的面积,并且荧光检测系统利用激发光的单次照明来检测整个生物芯片的荧光图像。