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    • 3. 发明申请
    • Detection method for specific biomolecular interactions using fret between metal nanoparticle and quantum dot
    • 金属纳米粒子与量子点之间特异性生物分子相互作用的检测方法
    • US20060183247A1
    • 2006-08-17
    • US11355069
    • 2006-02-16
    • Hak-Sung KimEunkeu OhMi-Young HongDohoon LeeSunghun Nam
    • Hak-Sung KimEunkeu OhMi-Young HongDohoon LeeSunghun Nam
    • G01N33/551
    • G01N33/542A61K49/0065A61K49/0067B82Y5/00B82Y10/00B82Y30/00
    • The present invention relates to (1) a method for detecting a specific binding for bio-molecules; (2) a method for detecting a presence of target molecules within a specimen; and (3) a method for measuring a quantity of target molecules existing in a specimen, in which a pair of energy donor and energy acceptor displaying a FRET phenomenon is used to guide a specific binding between a pair of bio-molecules. According to the present invention, the process is conducted rapidly and easily without a label so as to screen a biochemical substance inhibiting a specific binding between a pair of bio-molecules in an ultra-high speed and measure a quantity of the substance and thereby, it can be applied to develop a novel drug. Further, this method can be used to analyze a characteristic such as change of the amount of carbohydrates in a glycoprotein derived from various cells as a drug candidate and thereby, is applicable for a quality control of proteins etc.
    • 本发明涉及(1)用于检测生物分子的特异性结合的方法; (2)检测试样中靶分子的存在的方法; 和(3)用于测量存在于样品中的目标分子的量的方法,其中使用一对显示FRET现象的能量供体和能量受体来引导一对生物分子之间的特异性结合。 根据本发明,该方法快速且容易地进行而没有标签,以便以超高速筛选抑制一对生物分子之间的特异性结合的生物化学物质并测量该物质的量, 它可以应用于开发新型药物。 此外,该方法可以用于分析作为候选药物的来自各种细胞的糖蛋白中的碳水化合物的量的变化,从而适用于蛋白质等的质量控制。
    • 5. 发明授权
    • EDFA for amplifying transmitted light by dividing an exciting pump power
in two directions
    • EDFA,用于通过在两个方向上分配激励泵浦功率来放大透射光
    • US6011645A
    • 2000-01-04
    • US892717
    • 1997-07-15
    • Mi-Young Hong
    • Mi-Young Hong
    • H01S3/10H01S3/06H01S3/067H01S3/094H04B10/25H04B10/2525H04B10/293G02F1/35
    • H04B10/2525H01S3/094003H04B10/291H04B10/2912H01S3/094011H04B2210/003
    • An erbium doped fiber amplifier having one pumping source which outputs pump power so as to excite a light signal, the amplifier including: a first erbium doped fiber for receiving an excitation light signal input from the pumping source, and amplifying a transmitted light signal input from an input stage; a first wavelength division multiplexer located at an output of the first erbium doped fiber, for inputting the excitation light signal input from the pumping source to the first erbium doped fiber, the first multiplexer also receiving the transmitted light signal amplified from the first erbium doped fiber and outputting it to a next stage; a dispersion compensation fiber at an output of the first wavelength division multiplexer for compensating for loss caused due to the dispersion characteristics of the transmitted light signal; a second wavelength division multiplexer located at an output of the dispersion compensation fiber, for receiving the input transmitted light signal and the excitation light signal input from the pumping source at two input terminals and inputting the two signals to a second erbium doped fiber; and the second erbium doped fiber located at an output of the first wavelength division multiplexer for amplifying the transmitted light signal with the excitation light signal input.
    • 一种掺铒光纤放大器,具有一个泵浦源,其输出泵浦功率以激发光信号,所述放大器包括:第一掺铒光纤,用于接收从所述泵浦源输入的激发光信号,以及放大从 输入阶段 位于第一掺铒光纤的输出处的第一波分复用器,用于将从泵浦源输入的激发光信号输入到第一掺铒光纤,第一多路复用器还接收从第一掺铒光纤放大的透射光信号 并将其输出到下一级; 在第一波分复用器的输出处的色散补偿光纤用于补偿由于透射光信号的色散特性引起的损耗; 位于色散补偿光纤的输出处的第二波分复用器,用于接收在两个输入端从泵浦源输入的输入透射光信号和激发光信号,并将这两个信号输入到第二掺铒光纤; 以及位于第一波分多路复用器的输出处的第二掺铒光纤,用于用激发光信号输入放大透射光信号。