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首页> 外文会议>Solid-state electronics and photonics in biology and medicine >A Novel Ultra-Low Detection Limit Hydrogen Peroxide Sensor Based on Horseradish Peroxidase Immobilized Polyaniline Film
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A Novel Ultra-Low Detection Limit Hydrogen Peroxide Sensor Based on Horseradish Peroxidase Immobilized Polyaniline Film

机译:基于辣根过氧化物酶固定化聚苯胺膜的新型超低检测限过氧化氢传感器

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摘要

In this study, an ultra-sensitive hydrogen peroxide sensor was fabricated by using horseradish peroxidase (HRP)-immobilized conducting polymer, polyaniline (PANI). With the proposed detection mechanism, hydrogen peroxide first oxidizes HRP, which then oxidizes polyaniline, thus resulting in decreased conductivity of the polyaniline thin film. The reduced HRP can be further oxidized by hydrogen peroxide and the cycle of the oxidation/reduction interaction would proceed until all hydrogen peroxide are reacted. It leads to the high sensitivity of the sensor due to the signal contributed from all reacted hydrogen peroxide. The detection limit of the hydrogen peroxide sensor is 0.7 nM. The detecting range of concentration of H_2O_2 is from 0.7 nM to 1 μM. The simple fabrication for the sensor allows the sensor to be cost-effective and disposable. This ultra-sensitive hydrogen peroxide sensor is promising in applications for low concentration hydrogen peroxide detections, such as the reactive oxygen species (ROS) in oxidative stress studies.
机译:在这项研究中,通过使用辣根过氧化物酶(HRP)固定的导电聚合物聚苯胺(PANI)制造了超灵敏的过氧化氢传感器。通过提出的检测机制,过氧化氢首先会氧化HRP,然后再氧化聚苯胺,从而导致聚苯胺薄膜的电导率降低。还原的HRP可以被过氧化氢进一步氧化,并且氧化/还原相互作用的循环将继续进行,直到所有过氧化氢都反应为止。由于所有已反应的过氧化氢产生的信号,导致传感器的高灵敏度。过氧化氢传感器的检出限为0.7 nM。 H_2O_2的浓度检测范围为0.7 nM至1μM。传感器的简单制造使该传感器具有成本效益且可抛弃。这种超灵敏的过氧化氢传感器有望用于低浓度过氧化氢检测,例如氧化应激研究中的活性氧(ROS)。

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  • 会议地点 Cancun(MX)
  • 作者

    Kuan-Chung Fang; Chia-ho Chu; Chen-Pin Hsu; Yen-Wen Kang; Jung-Ying Fang; Chia-Hsien Hsu; Yu-Fen Huang; Chih-Chen Chen; Sheng-Shian Li; J. Andrew Yeh; Da-Jeng Yao; Yu-Lin Wang;

  • 作者单位

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

    Division of Medical Engineering, National Health Research Institutes, MiaoLi, Taiwan, R.O.C.;

    Department of Biomedical Engineering and Environmental Science, National Tsing Hua University, Hsinchu 300, Taiwan, R.O.C.;

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

    Institute of Nanoengineering and Microsystems, National Tsing Hua University, Hsinchu, 300, Taiwan, R.O.C.;

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