Biomolecular detection with an interferometric microfiber-capillary optofluidic sensor

2017 25th Optical Fiber Sensors Conference (OFS) Pub Date : 2017-04-23 DOI:10.1117/12.2264772
Lili Liang, Long Jin, B. Guan
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引用次数: 2

Abstract

We have developed a chip-scale optofluidic sensor for biomolecular detection, by tapering laterally aligned silica microfiber and capillary to form a modal interferometer. With the pre-immobilization of DNA probes, the sensor is capable of selectively detecting single-stranded microRNA-let7a (molecular weight: 6.5 k) by measuring the spectral shift of the interferometric spectrum. A log-linear response from 2 nM to 20 μΜ and a minimum detectable concentration of 212 pM (1.43 ng/mL) have been achieved. The sensor is promising for future diagnosis applications due to its high sensitivity, resistance to environmental perturbations, improved portability, and intrinsic connection to fiber optic measurement.
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干涉微纤维-毛细管光流传感器的生物分子检测
我们开发了一种芯片级的光流体传感器,用于生物分子检测,通过锥形横向排列的二氧化硅微纤维和毛细管形成模态干涉仪。通过预先固定DNA探针,该传感器能够通过测量干涉光谱的光谱位移来选择性地检测单链microRNA-let7a(分子量:6.5 k)。从2 nM到20 μΜ的对数线性响应和最低可检测浓度为212 pM (1.43 ng/mL)。由于其高灵敏度、抗环境扰动、改进的便携性以及与光纤测量的内在连接,该传感器有望在未来的诊断应用中得到应用。
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2017 25th Optical Fiber Sensors Conference (OFS)
2017 25th Optical Fiber Sensors Conference (OFS)
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