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    • 1. 发明申请
    • Biochemical sensing device
    • 生化检测装置
    • US20050100977A1
    • 2005-05-12
    • US10772365
    • 2004-02-06
    • Yuh-Shyong YangChung-Yu WuUde LuYu-Chuan ShihBen Hu
    • Yuh-Shyong YangChung-Yu WuUde LuYu-Chuan ShihBen Hu
    • C12M1/34C12Q1/00C12Q1/54C12Q1/60G01N21/76G01N33/487G01N33/52G01N33/92
    • C12Q1/001G01N21/76
    • The invention is a biochemical sensing device, including a photodiode capable of sensing the light generated by the reaction made by a specific compound, a specific enzyme, and a luminol as well as converting the optical signal into a current signal. Also, there is a current/voltage converting circuit capable of converting the current signal into an analog voltage signal. In turn, the analog voltage signal can be converted into a digital voltage signal through an analog/digital converter. Finally, by using an electronic device, the digital voltage signal can be received and analyzed, and through the analysis, the amount of the specific compound can be measured. The device of the invention can provide a simple real-time medical assay that can be performed in massive amount. For this reason, the drawbacks of a conventional spectrum analysis instrument of being bulky and expensive can be improved.
    • 本发明是一种生物化学检测装置,其包括能够感测由特定化合物,特定酶和鲁米诺产生的反应产生的光的光电二极管,以及将光信号转换为电流信号。 而且,存在能够将电流信号转换为模拟电压信号的电流/电压转换电路。 反过来,模拟电压信号可以通过模/数转换器转换成数字电压信号。 最后,通过使用电子设备,可以接收和分析数字电压信号,通过分析可以测量具体化合物的量。 本发明的装置可以提供可以大量进行的简单的实时医学测定。 因此,能够提高笨重且昂贵的常规光谱分析仪器的缺陷。
    • 4. 发明申请
    • Field-effect transistor type biosensor and bio-signal amplification method thereof
    • 场效应晶体管型生物传感器及其生物信号放大方法
    • US20110045466A1
    • 2011-02-24
    • US12572555
    • 2009-10-02
    • Ming-Yu LinYuh-Shyong YangHsin Chen
    • Ming-Yu LinYuh-Shyong YangHsin Chen
    • C12Q1/68C12M1/34
    • C12Q1/682C12Q1/6804C12Q1/6825G01N27/4145C12Q2565/607C12Q2531/125C12Q2527/101C12Q2521/101
    • The present invention discloses a field-effect transistor (FET) type biosensor and a bio-signal amplification method. The biosensor comprises a field-effect transistor chip, a biomolecular immobilization layer and at least one primer. The biomolecular immobilization layer is formed on a gate surface of the FET chip or a surface of an external device connected to a gate. The primer used for performing a nucleic acid amplification is immobilized onto the gate surface or the external device surface by binding with the biomolecular immobilization layer, such that an analyte can have a nucleic acid amplification reaction with the primer at room temperature or a constant temperature environment. With an extension of a nucleic acid sequence, the inducing electricity of the FET gate surface can be increased so as to amplify an inspection signal, thereby enhancing the sensitivity of the FET type biosensor effectively.
    • 本发明公开了一种场效应晶体管(FET)型生物传感器和生物信号放大方法。 生物传感器包括场效应晶体管芯片,生物分子固定化层和至少一个引物。 生物分子固定化层形成在FET芯片的栅极表面或连接到栅极的外部器件的表面上。 用于进行核酸扩增的引物通过与生物分子固定化酶结合而固定在栅极表面或外部器件表面上,使得分析物可以在室温或恒温环境下与引物进行核酸扩增反应 。 通过核酸序列的延伸,可以增加FET栅极表面的感应电力,从而放大检查信号,从而有效提高FET型生物传感器的灵敏度。
    • 7. 发明授权
    • Method of manufacturing nanoparticle chain
    • 制造纳米颗粒链的方法
    • US08921075B2
    • 2014-12-30
    • US13488748
    • 2012-06-05
    • Yen-Pei LuMing-Yu LinYu-Sheng LaiYuh-Shyong YangHsuen-Li ChenYu-Cheng Ou
    • Yen-Pei LuMing-Yu LinYu-Sheng LaiYuh-Shyong YangHsuen-Li ChenYu-Cheng Ou
    • C12P19/34C12Q1/68
    • C12P19/34C12Q1/6834C12Q2525/151C12Q2525/307C12Q2563/155
    • A method of manufacturing a nanoparticle chain is disclosed. The method comprises the steps of: providing a single-stranded circular primer with a determined length, and amplifying the single-stranded circular primer into single-stranded DNA nanotemplate by an isothermal nucleotide amplification reaction such that an end of the single-stranded DNA nanotemplate is fixed to a surface of a substrate; and adding a single-stranded DNA probe conjugated with nanoparticle at one end of which, and attaching the single-stranded DNA probe to the corresponding sequence on the single-stranded DNA nanotemplate to form a nanoparticles chain. The method of manufacturing a nanoparticle chain further comprises providing a fluid, and the flowing direction of the fluid controls the aligning direction of the nanoparticle chain. Wherein, the inter-nanoparticle distance of the nanoparticle chain can be adjusted by adjusting a reaction temperature or adding the single-stranded DNA probe without conjugating with nanoparticles.
    • 公开了一种制造纳米颗粒链的方法。 该方法包括以下步骤:提供具有确定长度的单链环状引物,并通过等温核苷酸扩增反应将单链环状引物扩增成单链DNA纳米模板,使得单链DNA纳米模板的末端 固定在基板的表面上; 并在其一端加入与纳米颗粒缀合的单链DNA探针,并将单链DNA探针连接到单链DNA纳米模板上的相应序列上以形成纳米颗粒链。 制造纳米颗粒链的方法还包括提供流体,流体的流动方向控制纳米颗粒链的排列方向。 其中,可以通过调节反应温度或加入单链DNA探针而不与纳米颗粒共轭来调节纳米颗粒链的纳米颗粒间距离。
    • 9. 发明申请
    • Method of Manufacturing Nanoparticle Chain
    • 制造纳米粒子链的方法
    • US20130273610A1
    • 2013-10-17
    • US13488748
    • 2012-06-05
    • Yen-Pei LuMing-Yu LinYu-Sheng LaiYuh-Shyong YangHsuen-Li ChenYu-Cheng Ou
    • Yen-Pei LuMing-Yu LinYu-Sheng LaiYuh-Shyong YangHsuen-Li ChenYu-Cheng Ou
    • C12P19/34
    • C12P19/34C12Q1/6834C12Q2525/151C12Q2525/307C12Q2563/155
    • A method of manufacturing a nanoparticle chain is disclosed. The method comprises the steps of: providing a single-stranded circular primer with a determined length, and amplifying the single-stranded circular primer into single-stranded DNA nanotemplate by an isothermal nucleotide amplification reaction such that an end of the single-stranded DNA nanotemplate is fixed to a surface of a substrate; and adding a single-stranded DNA probe conjugated with nanoparticle at one end of which, and attaching the single-stranded DNA probe to the corresponding sequence on the single-stranded DNA nanotemplate to form a nanoparticles chain. The method of manufacturing a nanoparticle chain further comprises providing a fluid, and the flowing direction of the fluid controls the aligning direction of the nanoparticle chain. Wherein, the inter-nanoparticle distance of the nanoparticle chain can be adjusted by adjusting a reaction temperature or adding the single-stranded DNA probe without conjugating with nanoparticles.
    • 公开了一种制造纳米颗粒链的方法。 该方法包括以下步骤:提供具有确定长度的单链环状引物,并通过等温核苷酸扩增反应将单链环状引物扩增成单链DNA纳米模板,使得单链DNA纳米模板的末端 固定在基板的表面上; 并在其一端加入与纳米颗粒缀合的单链DNA探针,并将单链DNA探针连接到单链DNA纳米模板上的相应序列上以形成纳米颗粒链。 制造纳米颗粒链的方法还包括提供流体,流体的流动方向控制纳米颗粒链的排列方向。 其中,可以通过调节反应温度或加入单链DNA探针而不与纳米颗粒共轭来调节纳米颗粒链的纳米颗粒间距离。