Time-resolved fluorescence immunoassay technology is a new generational non -radioactivity immunoassay. It has wide application and bright foreground in biotechnology and clinical detection.
时间分辨荧光免疫分析技术作为新一代非放射性免疫分析技术,具有生物技术研究和临床应用的广阔前景。
Modern fluorescence immunoassay, which includes fluorescence polarization immunoassay (FPIA) and time-resolved fluorescence immunoassay (TRFIA), also plays an important role in these subjects.
现代荧光免疫分析技术主要包括荧光偏振免疫分析(FPIA)和时间分辩荧光免疫分析(TRFIA)两种技术。
By using lanthanide ions, especially europium ions as the fluorescent labels of samples, TFFBS can perform time resolved fluorescence detection from spectral characteristics of europium ions.
该传感器以镧系离子(铕离子)作为被检测物质的荧光标记物,根据铕离子的荧光特性,利用时间分辨检测技术进行生物医学检测。
Finally, three functions are realized, they are the measurements of fluorescence lifetime, time-resolved spectrum and concentration of the detected solutions.
仪器实现三个功能,即荧光寿命、时间分辨光谱和被测溶液浓度的测量。
We also obtain corresponding fluorescence lifetime by using time-resolved spectroscopy at various temperatures.
同时用时间分辨光谱测量了不同温度下相应的荧光辐射寿命。
The time resolved polarized fluorescence of oriented R phycoerythrin single crystal from red alga Porphyra yezoensis was studied in picosecond time scale.
本文在皮秒时域内研究红藻条斑紫菜R-藻红蛋白单晶在不同晶轴取向下的偏振荧光动力学过程。
The time resolved polarized fluorescence of oriented R phycoerythrin single crystal from red alga Porphyra yezoensis was studied in picosecond time scale.
本文在皮秒时域内研究红藻条斑紫菜R-藻红蛋白单晶在不同晶轴取向下的偏振荧光动力学过程。
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