淡江大學機構典藏:Item 987654321/121141
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    Please use this identifier to cite or link to this item: https://tkuir.lib.tku.edu.tw/dspace/handle/987654321/121141


    Title: Fully integrated bio-chip with high sensitivity for electrochemical sensing application
    Authors: Chen, W.-H.;Chang, C.-H.;Shih, H.-Y.;Chiu, T.-W.;Kuo, C.-N.
    Keywords: voltammetry (chemical analysis);electrolytes;electrochemical sensors;oxidation;RC circuits;electrochemical detection;electrochemical characteristics;cyclic voltammetry;tissue solution;innate circuit;liquid noise;analogue-to-digital converter;single-slope ADC;low-noise design;liquid resistance;RC integration;electrochemical sensing application;out-of-band noise suppression;oxidation-reduction signals;low-electrolyte detection environment;fully integrated biosystem;potentiostat circuit topology;phosphate buffered saline background solution
    Date: 2019-04
    Issue Date: 2021-08-31 12:11:00 (UTC+8)
    Publisher: IET Electronics Letters
    Abstract: This Letter presents a fully integrated bio-system with the property of high sensitivity for electrochemical detection, which can intrinsically measure electrochemical characteristics with cyclic voltammetry. In normal circumstances, ultra-low electrolytes exist in tissue solution, which is difficult to accurately detect the oxidation/reduction signals, limited by the innate circuit and liquid noise. Hence, the conventional topology of the potentiostat circuit is improved and proposed in this Letter to remove the required analogue-to-digital converter (ADC). The overall operational mechanism of the potentiostat behaves like a single-slope ADC, which achieves a compact, easily implemented, and low-noise design. Additionally, the effective capacitance of potentiostat and liquid resistance make an RC integration to further suppress out-of-band noise, thereby enabling the low-electrolyte detection and improving detecting sensitivity. To simulate the low-electrolyte environment, only 0.01 M (M = mol/l) phosphate buffered saline background solution is used and required to demonstrate its feasibility of the concept. The measured results show the sensor chip with high sensitivity to sense resistive variation of electrochemical action in low electrolytes.
    Relation: Electronics Letters 55(8), p.438-440
    DOI: 10.1049/el.2018.6869
    Appears in Collections:[Graduate Institute & Department of Electrical Engineering] Journal Article

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