Spatial Confinement-Enhanced electrochemiluminescence of Gold nanoclusters in chitosan nanogels and its application for ultrasensitive detection of Aflatoxin B1

IF 4.5 3区 化学 Q1 Chemical Engineering Journal of Electroanalytical Chemistry Pub Date : 2023-08-15 DOI:10.1016/j.jelechem.2023.117595
Mengyuan Wang , Huixiao Li , Yadi Wang , Xiaodie Hu , Shujun Fang , Huili Ma , Wei Li , Dianlei Wang , Zhili Han
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引用次数: 1

Abstract

Gold nanoclusters (AuNCs), as a category of promising electrochemiluminescence (ECL) emitter, hold great potential for sensing applications. However, its application is still restricted by the relatively low ECL quantum yield and difficult to purification. In this work, AuNCs were confined in a soft chitosan (CS) nanogel matrix (AuNCs@CS) with good biocompatibility via a facile one-pot approach. The as-fabricated AuNCs@CS nanogels showed 2.4-fold ECL intensity relative to that of bare AuNCs without chitosan. The ECL enhancement was attributed to the increased percentage of Au(0) in AuNCs@CS nanogels, the confinement effect of chitosan nanogels, as well as chitosan as a polymer could reduce the diffusion of the radicals and prolong the excited state lifetime of AuNCs in ECL reaction. Moreover, the obtained AuNCs@CS nanogels are stable and easy to be purified by centrifugation. On this basis, a label-free ECL immunosensor for ultrasensitive detection of aflatoxin B1 (AFB1) was developed by using AuNCs@CS nanogels modified fluorine doped tin oxide (FTO) electrode as a sensing interface. The linear range of the proposed immunosensor for AFB1 detection was 3.16 × 10-14 to 3.16 × 10-12 g/mL with a detection limit of 9.3 × 10-15 g/mL, which was at least one order of magnitude lower than the reported ECL biosensor of AFB1. The proposed strategy may be used for the determination of other toxins in the Aflatoxin family if corresponding antibodies are available, which is of great significance for the quality control of Chinese herbal medicine and food safety.

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壳聚糖纳米凝胶中金纳米团簇的空间约束增强电化学发光及其在黄曲霉毒素B1超灵敏检测中的应用
金纳米团簇(AuNCs)作为一类极具发展前景的电化学发光(ECL)发射体,在传感领域有着巨大的应用潜力。但由于ECL量子产率较低,纯化困难,制约了其应用。在这项工作中,通过简单的一锅法将aunc限制在具有良好生物相容性的软壳聚糖(CS)纳米凝胶基质(AuNCs@CS)中。制备的AuNCs@CS纳米凝胶的ECL强度是未添加壳聚糖纳米凝胶的2.4倍。ECL的增强主要是由于AuNCs@CS纳米凝胶中Au(0)含量的增加,壳聚糖纳米凝胶的约束作用,以及壳聚糖作为聚合物可以减少自由基的扩散,延长AuNCs在ECL反应中的激发态寿命。制备的AuNCs@CS纳米凝胶稳定,易于离心纯化。在此基础上,以AuNCs@CS纳米凝胶修饰氟掺杂氧化锡(FTO)电极为传感接口,研制了一种用于黄曲霉毒素B1 (AFB1)超灵敏检测的无标记ECL免疫传感器。该免疫传感器检测AFB1的线性范围为3.16 × 10-14 ~ 3.16 × 10-12 g/mL,检出限为9.3 × 10-15 g/mL,比已有的ECL AFB1生物传感器至少低一个数量级。如果有相应的抗体,该方法可用于黄曲霉毒素家族中其他毒素的检测,对中草药的质量控制和食品安全具有重要意义。
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来源期刊
Journal of Electroanalytical Chemistry
Journal of Electroanalytical Chemistry Chemical Engineering-General Chemical Engineering
CiteScore
7.50
自引率
6.70%
发文量
912
审稿时长
>12 weeks
期刊介绍: The Journal of Electroanalytical Chemistry is the foremost international journal devoted to the interdisciplinary subject of electrochemistry in all its aspects, theoretical as well as applied. Electrochemistry is a wide ranging area that is in a state of continuous evolution. Rather than compiling a long list of topics covered by the Journal, the editors would like to draw particular attention to the key issues of novelty, topicality and quality. Papers should present new and interesting electrochemical science in a way that is accessible to the reader. The presentation and discussion should be at a level that is consistent with the international status of the Journal. Reports describing the application of well-established techniques to problems that are essentially technical will not be accepted. Similarly, papers that report observations but fail to provide adequate interpretation will be rejected by the Editors. Papers dealing with technical electrochemistry should be submitted to other specialist journals unless the authors can show that their work provides substantially new insights into electrochemical processes.
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