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    Please use this identifier to cite or link to this item: http://ir.lib.ncut.edu.tw/handle/987654321/5876


    Title: Highly sensitive biochemical sensor comprising rectangular nanometal arrays
    Authors: He, Yue-Jing
    Contributors: 圖書館
    Keywords: Finite element method
    Eigenmode expansion method
    Perfectly matched layer
    Perfectly reflecting boundary condition
    Object meshing method
    Boundary meshing method
    Date: 2015-12-01
    Issue Date: 2016-10-17
    Abstract: This paper proposes a novel design for a highly sensitive high-resolution localized surface plasmon resonance (LSPR) biochemical sensor. The geometrical structure of the sensor consists of three segments. The first segment comprises single-mode fibers located in the output and input ends of the sensor. The second and third segments comprise rectangular nanometal arrays and serve as the analyte regions of the sensor; the amount of displacement between these two segments is one rectangular nonmetal particle. We integrated two breakthrough methods, the object meshing method and the boundary meshing method, with the finite element method to effectively improve the accuracy of simulation outcomes and reduce the amount of time and memory required for performing calculations. Subsequently, we constructed the proposed LSPR biochemical sensor, and the results indicated that the proposed sensor exhibited excellent geometric structure and spectral characteristics. Specifically, the sensor is short (approximately 250 μm) and features high resolution (approximately −130 dB) and high sensitivity (approximately 126,849.1333 nm/RIU).
    Relation: Sensors and Actuators B: Chemical
    Appears in Collections:[Department of Electronic Engineering] 【電子工程系所】期刊論文

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