对于光纤生物传感器,生物敏感材料是最重要的部分。
Biosensitive material is an important part of fiber optic biosensor.
光学生物敏感材料是光纤生物传感器中一个非常重要的部分,其性能直接影响光纤生物传感器的性能。
Biosensitive material is an important part of fiber optic biosensor. The characters of the material influence the whole fiber optic biosensor greatly.
纳米光纤探针作为近场光学显微镜和纳米光纤生物传感器中的关键元件,用于微小尺度物体的检测和分析。
Fiber-optical nanoprobes are the key elements for detecting and analyzing micro-scale objects in near-field optical microscopes and fiber-optical nano-biosensors.
光纤生物传感器是光纤传感器中的一个重要分支,在医学、生物工程、食品工业和环境监控等方面有广阔的应用前景。
Fiber optic biosensor is an important branch of fiber optic sensor, and it has a wide application prospect in medical science, biological engineering, food industries and environment monitoring.
本文简要介绍了光纤DNA生物传感器的结构原理及研究动向。
The Research and structure principle of the fiber-optic DNA biosensor are introduced in this paper.
除了用作紫外光传输的高成本石英光纤之外,通常,这些生物传感器的稳定性都很差,容易和周围的环境光线产生相互干涉。
These biosensors have usually poor stability and are prone to interference from environmental light, apart the high cost of quartz optical fibers for UV light transmission.
本论文从基于光纤模式滤光检测的机理入手,致力于研究一类新型的基于模式滤光检测的光纤化学与生物传感器。
In this thesis, kinds of novel fiber-optic chemo - and bio - sensors based on mode-filtered light detection (MFLD) were presented, originating from the proposition of MFLD mechanism.
介绍光纤倏逝波生物传感器的基本原理、常用试验方法、基本仪器构建及应用进展。
The principle, experimental protocols, instrumentation and applications of fiber-optic evanescent wave biosensor were covered in this review.
以光纤倏逝波原理,研制成功一台光纤倏逝波生物传感器。
A fiber-optic evanescent wave biosensor has been developed based on the principle of evanescent wave while light propagates in optical fiber.
光纤倏逝波生物传感器是基于光波在光纤内以全反射方式传输时产生倏逝波的原理熏以生物分子作为敏感元件进行检测的一类新兴传感器。
The fiber-optic biosensor, which employs biological molecules as the sensoring element, is a relatively new kind of sensor on the basis of evanescent wave principle.
光纤倏逝波生物传感器系统中,利用激光在光纤探针中传播时产生的倏逝波来激发荧光物质,产生荧光信号。
The evanescent wave-based optical fiber biosensor USES the evanescent wave which is produced when light propagates in the fiber probe to excite the fluorescence signal.
本论文研究和制作了纳米光纤dna生物传感器,并将其应用于基因的诊断。
Nanoscale optical fiber DNA biosensor is designed and prepared, and applied in genetic diagnosis in this article.
本论文研究和制作了纳米光纤dna生物传感器,并将其应用于基因的诊断。
Nanoscale optical fiber DNA biosensor is designed and prepared, and applied in genetic diagnosis in this article.
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