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    • 4. 发明授权
    • 당화 단백질 측정센서 및 이를 포함하는 휴대용 당화 단백질 측정장치
    • 糖化蛋白质测量传感器和包含其的便携式糖蛋白测定装置
    • KR101287957B1
    • 2013-07-19
    • KR1020120102479
    • 2012-09-14
    • 주식회사 엔디디
    • 안세영스테판슨,스테인그리무어
    • G01N27/31G01N33/487
    • G01N27/4145
    • PURPOSE: A glycoprotein measuring sensor and a portable glycoprotein measuring device are provided to simply measure a glycoprotein value by contacting the saliva to the measuring device without a blood collecting process. CONSTITUTION: A glycoprotein measuring sensor includes sensing films, a first unit sensor (10'), and a second unit sensor (10''). The first and second unit sensors include positive electrodes (400,400',400") and negative electrodes (500,500',500") which are formed on both end portions of the sensing films to be faced each other and spaced from each other at a predetermined distance. A ligand composition including an aromatic boronic acid joined with a first target material as an active component is arranged on a first sensing film of the first unit sensor. A receptor joined with the first target material and a second target material is arranged on a second sensing film of the second unit sensor. The first and second sensing films include one between a carbon nanotube and graphene and are identically comprised. The first target material is glycated human serum albumin (gHSA), and the second target material is human serum albumin (HSA). When the saliva is in contact with a predetermined portion of the first sensing film of the first unit senor, the first sensing film interposes the ligand composition so that a change in a current flowing in the first sensing film is measured. The current change is caused by the connection of the ligand composition and the glycated human serum albumin contained inside the saliva.
    • 目的:提供糖蛋白测量传感器和便携式糖蛋白测量装置,以通过将唾液与测量装置接触而无需采血过程来简单地测量糖蛋白值。 构成:糖蛋白测量传感器包括感测膜,第一单元传感器(10')和第二单元传感器(10“)。 第一单元传感器和第二单元传感器包括正电极(400,400',400“)和负电极(500,500',500”),它们形成在彼此面对并且以预定的方式彼此隔开的感测膜的两个端部 距离。 包含与作为有源成分的第一靶材接合的芳香族硼酸的配体组合物配置在第一单位传感器的第一感测膜上。 与第一目标材料接合的受体和第二靶材料被布置在第二单位传感器的第二感测膜上。 第一和第二感测膜包括碳纳米管和石墨烯之间的一个,并且是相同的。 第一种靶材是糖化人血清白蛋白(gHSA),第二种靶材是人血清白蛋白(HSA)。 当唾液与第一单元传感器的第一感测膜的预定部分接触时,第一感测膜插入配体组合物,以便测量在第一感测膜中流动的电流的变化。 当前的变化是由配体组合物与唾液中含有的糖化人血清白蛋白的连接引起的。
    • 8. 发明公开
    • 초음파 나노표면처리를 이용한 스텐트용 와이어 표면 처리 방법
    • 用于电缆的UNSM处理方法
    • KR1020110085040A
    • 2011-07-27
    • KR1020100004606
    • 2010-01-19
    • 주식회사 엔디디
    • 안세영
    • C21D10/00
    • C21D10/00B21J5/006
    • PURPOSE: A method for treating the surface of a wire for a stent using Ultrasonic Nano crystal Surface Modification is provided to improve the surface quality and surface roughness value of a wire. CONSTITUTION: A method for treating the surface of a wire for a stent using Ultrasonic Nano crystal Surface Modification is as follows. A metal alloy wire is arranged between first and second vibrating plates vibrated at a predetermined cycle. Ultrasonic energy is uniformly applied to the surface of the metal alloy wire. While the ultrasonic energy is applied to the metal alloy wire, the first and second vibrating plates or the metal alloy wire are rotated.
    • 目的:提供使用超声波纳米晶体表面改性处理支架用电线表面的方法,以改善电线的表面质量和表面粗糙度值。 构成:使用超声波纳米晶体表面改性处理支架用线材的表面的方法如下。 金属合金线布置在以预定周期振动的第一和第二振动板之间。 超声能量均匀地施加到金属合金线的表面。 当将超声能量施加到金属合金线时,第一和第二振动板或金属合金线旋转。