提高PI-5-CA/C-SWCNT纳米杂化物对实际样品中O157:H7的灵敏检测的电化学性能。

Boosting the Electrochemical Performance of PI-5-CA/C-SWCNT Nanohybrid for Sensitive Detection of O157:H7 From the Real Sample.

作者信息

Wang Huan, Fan Yanmiao, Yang Qiaoli, Sun Xiaoyu, Liu Hao, Chen Wei, Aziz Ayesha, Wang Shenqi

机构信息

Advanced Biomaterials and Tissue Engineering Center, College of Life Science and Technology, Huazhong University of Life Science and Technology, Wuhan, China.

School of Chemical Science and Engineering Fiber and Polymer Technology, KTH Royal Institute of Technology, Stockholm, Sweden.

出版信息

Front Chem. 2022 Feb 10;10:843859. doi: 10.3389/fchem.2022.843859. eCollection 2022.

DOI:10.3389/fchem.2022.843859

PMID:35223774

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8866332/

Abstract

Redox activity is an important indicator for evaluating electrochemical biosensors. In this work, we have successfully polymerized indole-5-carboxylic acid into poly-5-carboxyindole nanomaterials (PI-5-CA), using its superior redox activity, and introduced carboxylated single-walled carbon nanotubes (C-SWCNTs) to synthesize a composite material. Finally, a synthesized composite material was used for the modification of the glass carbon electrode to fabricate the PI-5-CA/C-SWCNTs/GCE-based immunosensor and was successfully applied for the sensitive detection of O157:H7. The fabricated immunosensor exhibited an outstanding electrocatalytic activity toward the detection of O157:H7 with a remarkably lowest limit of detection (2.5 CFU/ml, = 3 /k, = 3) and has a wide linear range from 2.98×10 to 2.98×10 CFU/ml. Inspired from the excellent results, the fabricated electrode was applied for the detection of bacteria from real samples (water samples) with a good recovery rate (98.13-107.69%) as well as an excellent stability and specificity. Owing to its simple preparation, excellent performance, and detection time within 30 min, our proposed immunosensor will open a new horizon in different fields for the sensitive detection of bacteria from real samples.

摘要

氧化还原活性是评估电化学生物传感器的重要指标。在本工作中，我们利用吲哚 - 5 - 羧酸优异的氧化还原活性成功地将其聚合成聚 - 5 - 羧基吲哚纳米材料（PI - 5 - CA），并引入羧基化单壁碳纳米管（C - SWCNTs）合成了一种复合材料。最后，将合成的复合材料用于修饰玻碳电极，制备了基于PI - 5 - CA/C - SWCNTs/GCE的免疫传感器，并成功应用于O157:H7的灵敏检测。所制备的免疫传感器对O157:H7的检测表现出出色的电催化活性，检测限极低（2.5 CFU/ml， = 3 /k， = 3），线性范围宽，从2.98×10到2.98×10 CFU/ml。受这些优异结果的启发，所制备的电极用于实际样品（水样）中细菌的检测，回收率良好（98.13 - 107.69%），稳定性和特异性优异。由于其制备简单、性能优异且检测时间在30分钟内，我们提出的免疫传感器将为实际样品中细菌的灵敏检测在不同领域开辟新的前景。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f9cd/8866332/8141d5b412f8/fchem-10-843859-g001.jpg

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提高PI-5-CA/C-SWCNT纳米杂化物对实际样品中O157:H7的灵敏检测的电化学性能。

Boosting the Electrochemical Performance of PI-5-CA/C-SWCNT Nanohybrid for Sensitive Detection of O157:H7 From the Real Sample.

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