用于结肠组织检测的高灵敏度光学MEMS光子生物传感器

Q3 Engineering

AIMS Electronics and Electrical Engineering Pub Date : 2022-01-01 DOI:10.3934/electreng.2022017

M. V. Raghunathareddy, G. Indumathi, K. R. Niranjan

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引用次数: 0

摘要

利用生物传感器对细胞的生物成分、蛋白质进行了有效的研究。基于光子晶体的传感器是一种高灵敏度的光学纳米结构，它可以被操纵来影响光子的运动，以供用户使用。本文设计了基于微腔的光子晶体生物传感器，并对其不同的光传感评价参数如传输效率、灵敏度、Q因子和峰值谐振波长进行了研究。针对血液中结肠癌组织的早期检测，设计并分析了传感器。缺陷微柱半径由0.16µm增加到0.19µm。微柱半径为0.17µm，灵敏度为700nm/RIU，质量因数为10232。同样，半径为0.16µm、0.18µm和0.19µm时，质量因子和灵敏度分别为5324、7232、8343和111 nm/RIU, 320 nm/RIU和340 nm/RIU。与其他文献相比，本文所提出的方法具有更好的感知能力。所设计的传感器显示出显著的输出和未来制造的可行性。

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Highly sensitive optical MEMS based photonic biosensor for colon tissue detection

Biological component of cells, protein has been effectively studied and investigated using biological sensors. Photonic crystal-based sensor is highly sensitive optical nanostructure it can be manipulated to affect the motion of photon for users' application. In the proposed work microcavity based photonic crystal biosensor has been designed and investigated for its different optical sensing evaluation parameters such as transmission efficiency, sensitivity, Q factor and peak resonant wavelengths. Sensor is designed and analyzed for early detection of colon cancer tissues in blood. Radius of defect micropillar has been increased from 0.16 µm to 0.19 µm. High Quality factor 10232 has been achieved with the micro pillar radius of 0.17 µm and sensitivity 700nm/RIU. Similarly, radius of 0.16 µm, 0.18 µm and 0.19 µm has attained quality factor and sensitivity such as 5324, 7232, 8343 and 111 nm/RIU, 320 nm/RIU and 340 nm/RIU respectively. Compared other work in literature, proposed work has shown better sensing capability. Designed sensor has shown remarkable output and feasibility for future fabrication.

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来源期刊

AIMS Electronics and Electrical Engineering Engineering-Control and Systems Engineering

CiteScore

2.40

自引率

0.00%

发文量

审稿时长

8 weeks