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    • 2. 发明授权
      KR101605947B1 미세 액적 내 단일 세포 배양 시스템 및 방법 有权
    • 미세 액적 내 단일 세포 배양 시스템 및 방법
    • 用于在精细滴漏中培养单细胞的系统和方法
    • KR101605947B1
    • 2016-03-23
    • KR1020140025784
    • 2014-03-05
    • 한국과학기술원
    • 서태석배선웅
    • C12M3/00
    • 본발명은세포배양시스템및 방법에관한것으로서, 더욱상세하게는단일세포기반세포배양환경을제공하는세포배양시스템및 방법에관한것이다. 본발명에의하면, 대량의단일세포를포함하는제1 액체가흐르도록형성된제1 유로; 제2 액체가흐르고중간에상기제1 액체가상기제2 액체와합류하도록상기제1 유로와연결되는제2 유로; 상기제1 유로의상류쪽 끝단에연결되고상기단일세포각각에특정유전자를전달하여형질전환을유도하는유전자전달부; 및상기제2 유로의하류쪽 끝단에연결되는세포배양부를포함하며, 상기제1 액체는상기제1 유로에서상기제2 유로로유입되면서제2 액체와상호작용하여내부에하나의단일세포를포함하는미세액적을연속적으로형성하며, 세포배양부는상기제2 유로로부터공급된상기다수의미세액적을수용하여단일세포를배양하며, 전기영동법등을이용하여성공적으로배양된미세조류가존재하는미세액적만을선별하는것을특징으로하는미세액적내 단일세포배양시스템및 이를이용하는미세액적내 단일세포배양방법이제공된다.
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 3. 发明公开
      KR1020150139355A 중금속 이온 샘플 전처리용 미세 유체 칩 및 이를 이용하는 중금속 이온 샘플 전처리 장치와 방법 有权
    • 중금속 이온 샘플 전처리용 미세 유체 칩 및 이를 이용하는 중금속 이온 샘플 전처리 장치와 방법
    • 用于重金属离子样品预处理的微流化芯片,以及使用该方法预处理重金属离子样品的装置和方法
    • KR1020150139355A
    • 2015-12-11
    • KR1020140067853
    • 2014-06-03
    • 한국과학기술원
    • 서태석박민수
    • G01N1/28G01N27/62H01J49/26B81B3/00B81C1/00
    • 본발명은중금속이온샘플의분석기술에관한것으로서, 더욱상세하게는중금속이온샘플을전처리하기위한미세유체칩 및이를이용하는중금속이온샘플전처리장치와방법에관한것이다. 본발명에의하면, 양이온교환수지가채워지는포획체임버와중금속이온을함유하는액상샘플을상기포획체임버로안내하는유로채널이형성되는몸체부; 상기유로채널의상부를덮어서막는멤브레인부; 및상기멤브레인부를덮는커버부를포함하며, 상기유로채널에는액체의흐름을막는차단벽이마련되며, 상기커버부에서상기멤브레인부와접하는면에는상기차단벽에대응하여위치하는압력작용홈이마련되는중금속이온샘플전처리용미세유체칩이제공된다.
    • 本发明涉及重金属离子样品的分析技术,更具体地,涉及用于重金属离子样品预处理的微流控芯片,以及使用该重金属离子样品预处理重金属离子样品的装置和方法。 根据本发明,用于重金属离子样品预处理的微流体芯片包括:具有填充有阳离子交换树脂的捕获室的主体部分和将含有重金属离子的液体样品引导到捕获室的流动通道; 膜部分,以覆盖和阻挡流动通道的上部; 以及覆盖膜部的盖部。 在流动通道中,制备阻挡流体流动的阻挡壁。 此外,在与盖部的膜部接触的表面上制备与阻挡壁对应的位置的压力作用槽, 从而提供用于重金属离子样品预处理的微流控芯片。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 5. 发明授权
      KR101440997B1 샘플 전처리­PCR­검출 통합 마이크로칩 및 이를 이용한 분석 방법 有权
    • 샘플 전처리­PCR­검출 통합 마이크로칩 및 이를 이용한 분석 방법
    • 集成样品预处理 - 聚合酶链反应检测微孔和分析方法
    • KR101440997B1
    • 2014-09-17
    • KR1020130039334
    • 2013-04-10
    • 한국과학기술원
    • 서태석김용태
    • G01N33/53C12Q1/68G01N35/08
    • G01N33/5308B01L3/5027C12Q1/6837C12Q1/6844C12Q1/686G01N35/085
    • The present invention relates to a gene analyzing technique and, more specifically, to a micro-device by which a sample pretreatment process, a PCR process, and a detection process such as capillary electrophoresis can integrally be performed; and to an analyzing method using the same. By means of the present invention, provided is a sample pretreatment-PCR-detection integrated microchip comprising: a channel wafer including a feeding channel, a discharging channel, and a micro channel equipped with a detecting domain formed to be separated from each other; and a slide plate coupled with one surface of the channel wafer to be able to slide, and has a moving chamber formed to be connected with one surface of the channel wafer. On one surface of the channel wafer, a discharging hole connected with the feeding channel and a feeding hole connected with the discharging channel are formed. The discharging hole and feeding hole are separated to be connected together with the moving chamber in accordance to the position of the moving chamber.
    • 本发明涉及一种基因分析技术,更具体地,涉及可以一体地进行样品预处理过程,PCR过程和检测过程如毛细管电泳的微装置; 以及使用该方法的分析方法。 通过本发明,提供了一种样品预处理PCR检测集成微芯片,其包括:通道晶片,其包括馈送通道,放电通道和配备有形成为彼此分离的检测区域的微通道; 以及与通道晶片的一个表面耦合以能够滑动的滑板,并且具有形成为与通道晶片的一个表面连接的移动室。 在通道晶片的一个表面上形成有与供给通道连接的排出孔和与排出通道连接的供给孔。 排放孔和进料孔根据移动室的位置被分离成与移动室连接在一起。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 6. 发明公开
      KR1020140093084A 회전 PCR 공정용 시료 처리 칩, 이를 구비하는 회전 PCR 장치 및 이를 이용한 회전 PCR 방법 有权
    • 회전 PCR 공정용 시료 처리 칩, 이를 구비하는 회전 PCR 장치 및 이를 이용한 회전 PCR 방법
    • 用于旋转PCR处理的样品处理芯片,具有该旋转PCR处理的旋转PCR装置和使用其的旋转PCR方法
    • KR1020140093084A
    • 2014-07-25
    • KR1020130005438
    • 2013-01-17
    • 한국과학기술원
    • 서태석정재환박병현
    • C12Q1/68C12M1/38C12M1/00
    • C12Q1/6837C12M1/38C12Q1/686
    • The present invention includes a unit sample processing unit which is positioned by being separated from the center of a rotation in a radial direction. The unit sample processing unit includes: a target material capturing unit which includes a capturing path having an inlet hole and an outlet hole and a capturing means filling the capturing path; a sample chamber which is positioned to be inner than the target material capturing unit in a radial direction, is connected to the inlet hole of the capturing path, and provides a space which stores a sample inside; a washing buffer solution chamber which is positioned to be inner than the target material capturing unit in a radial direction and provides a space which stores washing buffer solution inside; washing buffer solution which is positioned between the washing buffer solution chamber and the inlet of the capturing path; an elution buffer solution chamber which is positioned to be inner than the target material capturing unit in a radial direction and provides a space which stores elution buffer solution inside; and an elution buffer solution introduction path which is positioned between the elution buffer solution chamber and the inlet of the capturing path. The washing buffer solution introduction path includes inner transition curve sections which change the flow of the washing buffer solution from the inside to the outside. The elution buffer solution introduction path changes the flow of the elution buffer solution from the inside of the radial direction to the outside and includes a first inner transition curve section and a second inner transition curve section which are arranged in order in a flow direction.
    • 本发明包括通过沿径向从旋转中心分离而定位的单元样品处理单元。 单元样品处理单元包括:目标材料捕获单元,其包括具有入口孔和出口孔的捕获路径和填充捕获路径的捕获​​装置; 在径向方向上位于目标材料捕获单元的内部的样品室连接到捕获路径的入口孔,并且提供将样品储存在其中的空间; 洗涤缓冲溶液室,其沿径向位于所述目标材料捕获单元的内部,并且提供在其中存储洗涤缓冲溶液的空间; 位于洗涤缓冲溶液室和捕获路径入口之间的洗涤缓冲溶液; 洗脱缓冲溶液室,其位于径向方向上位于靶材捕获单元的内部,并提供将洗脱缓冲溶液存储在其中的空间; 以及位于洗脱缓冲溶液室与捕获路径的入口之间的洗脱缓冲液引入路径。 洗涤缓冲液引入路径包括将洗涤缓冲溶液从内向外流动的内部过渡曲线部分。 洗脱缓冲溶液导入路径将洗脱缓冲溶液从径向内侧的流动改变到外部,并且包括在流动方向上依次排列的第一内部过渡曲线部分和第二内部过渡曲线部分。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 9. 发明公开
      KR1020130045995A 환원 그래핀 산화물-금속 나노입자 복합필름의 제조방법, 이에 의하여 제조된 환원 그래핀 산화물-금속 나노입자 복합필름 및 이를 이용한 바이오센서 有权
    • 환원 그래핀 산화물-금속 나노입자 복합필름의 제조방법, 이에 의하여 제조된 환원 그래핀 산화물-금속 나노입자 복합필름 및 이를 이용한 바이오센서
    • 一种制造减少氧化亚金属纳米复合膜的方法,由其制造的还原型氧化亚金属纳米复合膜,以及包含减少的图形氧化亚金属纳米复合膜的生物传感器
    • KR1020130045995A
    • 2013-05-07
    • KR1020110110275
    • 2011-10-27
    • 한국과학기술원
    • 서태석류페이
    • C01B31/02G01N33/48B82B3/00B82Y40/00
    • C01B32/182B82B3/0009B82Y40/00C01B32/15C01G7/00
    • PURPOSE: A graphene composite film, a manufacturing method thereof, and a biosensor using the same are provided to mass produce graphene composite films at a low cost without using separate chemicals for treating the surface, and to control the composition of nano-materials. CONSTITUTION: A manufacturing method of a graphene composite film comprises the following steps: a step of obtaining a mixed solution by mixing a metal nanoparticle solution to a dispersion solution in which graphene oxide sheets are dispersed; a step of obtaining a metal nanoparticle-graphene oxide composite film by centrifugally rotating said mixed solution in the vacuum condition; and a step of manufacturing a metal nanoparticle-reduced graphene composite film by reducing said metal nanoparticle-graphene oxide composite film. The surface of metal nanoparticles has the same electric charge to the surface of graphene oxides.
    • 目的:提供石墨烯复合膜及其制造方法和使用该石墨烯复合膜的生物传感器,以低成本批量生产石墨烯复合膜,而不使用用于处理表面的单独化学品,并且控制纳米材料的组成。 构成:石墨烯复合膜的制造方法包括以下步骤:通过将金属纳米颗粒溶液与其中分散有石墨烯氧化物片的分散液混合来获得混合溶液的步骤; 通过在真空条件下离心旋转所述混合溶液获得金属纳米颗粒 - 石墨烯氧化物复合膜的步骤; 以及通过还原所述金属纳米颗粒 - 石墨烯氧化物复合膜来制造金属纳米颗粒还原型石墨烯复合膜的步骤。 金属纳米颗粒的表面与石墨烯氧化物的表面具有相同的电荷。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
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