基于自毁型发夹结构和磁分离技术的电化学-比色双模态生物传感平台用于庆大霉素检测。

A dual-mode of electrochemical-colorimetric biosensing platform for kanamycin detection based on self-sacrifice beacon and magnetic separation technique.

机构信息

Chongqing Key Laboratory of Environmental Materials and Remediation Technologies, College of Chemistry & Environmental Engineering (Chongqing University of Arts and Sciences), Chongqing, 402160, PR China; Key Disciplines Lab of Novel Micro-Nano Devices and System Technology, Key Laboratory of Optoelectronic Technology and Systems, Ministry of Education, Chongqing University, Shapingba, Chongqing, 400044, PR China.

出版信息

Anal Chim Acta. 2022 Dec 15;1236:340590. doi: 10.1016/j.aca.2022.340590. Epub 2022 Nov 5.

DOI:10.1016/j.aca.2022.340590

PMID:36396241

Abstract

In this work, iron-based metal organic frameworks (Fe-MOF) are used as a self-sacrifice beacon to produce Prussian blue (PB). Then, a dual-mode electrochemical-colorimetric biosensing platform for kanamycin (KAN) detection is established considering the prominent redox activity and blue color of PB. CoFeO magnetic nanobeads (CoFeO MBs) are employed for immobilization and separation of the signal beacon in the complex matrix, and the combination between CoFeO MBs and magnetic electrodes simplifies the electrochemical testing process. The linear range of the electrochemical mode is 0.1 nM-1.0 μM with a detection limit of 39 pM, and that of the colorimetric mode is 10 nM-2.0 μM with a detection limit of 3.6 nM. Furthermore, the dual-mode strategy shows satisfactory specificity and enhanced applicability for KAN detection in real samples. Compared with known dual-mode determination methods, the proposed design employs the same reaction to produce two signal output modes, thus eliminating the effect of different reactive pathways on the outcome and in turn promoting greater accuracy.

摘要

在这项工作中，使用基于铁的金属有机骨架（Fe-MOF）作为自牺牲信标来生成普鲁士蓝（PB）。然后，考虑到 PB 的突出的氧化还原活性和蓝色，建立了用于卡那霉素（KAN）检测的双模式电化学比色生物传感平台。CoFeO 磁性纳米珠（CoFeO MBs）用于在复杂基质中固定和分离信号信标，并且 CoFeO MBs 和磁性电极的结合简化了电化学测试过程。电化学模式的线性范围为 0.1 nM-1.0 μM，检测限为 39 pM，比色模式的线性范围为 10 nM-2.0 μM，检测限为 3.6 nM。此外，该双模式策略在实际样品中对 KAN 的检测表现出令人满意的特异性和增强的适用性。与已知的双模式测定方法相比，所提出的设计采用相同的反应来产生两种信号输出模式，从而消除了不同反应途径对结果的影响，从而提高了准确性。

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基于自毁型发夹结构和磁分离技术的电化学-比色双模态生物传感平台用于庆大霉素检测。

A dual-mode of electrochemical-colorimetric biosensing platform for kanamycin detection based on self-sacrifice beacon and magnetic separation technique.

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