基于 AgPdNPs/PEI-GO 和中空纳米盒状 Pt@Ni-CoHNB 的新型电化学诱导传感器用于检测丙西米酮

IF 4.8 2区 化学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ruonan Wang , Baoshan He , Yuling Wang , Yao Liu , Zhengyong Liang , Huali Jin , Min Wei , Wenjie Ren , Zhiguang Suo , Yiwei Xu
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引用次数: 0

摘要

在此,我们开发了一种基于信号放大策略的相应传感器,用于灵敏检测丙西米酮(PCM)。采用银钯纳米颗粒/氧化石墨(AgPdNPs/PEI-GO)作为电极修饰材料,以促进电子传输并增加电极表面的活性位点。此外,还利用 Pt@Ni-Co 纳米盒(Pt@Ni-CoHNBs)作为信号标签的载体,将 ZIF-67 中空并生长铂后,得到的 Pt@Ni-CoHNBs 表面出现大量褶皱,使其能够携带更多的亚硫酰,从而放大了可检测的电化学信号。在 PCM 存在的情况下,PCM 与信号探针的结合会引发电信号的变化。结果表明,该适配传感器灵敏度极高,检测限低至 0.98 pg-mL-1,线性范围宽至 1 μg-mL-1 至 1 pg-mL-1。同时,所构建的适配传感器的特异性、稳定性和重现性也令人满意。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel electrochemical aptasensor based on AgPdNPs/PEI-GO and hollow nanobox-like Pt@Ni-CoHNBs for procymidone detection

Herein, an aptasensor based on a signal amplification strategy was developed for the sensitive detection of procymidone (PCM). AgPd nanoparticles/Polenimine Graphite oxide (AgPdNPs/PEI-GO) was weaned as electrode modification material to facilitate electron transport and increase the active sites on the electrode surface. Besides, Pt@Ni-Co nanoboxes (Pt@Ni-CoHNBs) were utilized to be carriers for signaling tags, after hollowing ZIF-67 and growing Pt, the resulting Pt@Ni-CoHNBs has a tremendous amounts of folds occurred on the surface, enables it to carry a larger quantity of thionine, thus amplify the detectable electrochemical signal. In the presence of PCM, the binding of PCM to the signal probe would trigger a change in electrical signal. The aptasensor was demonstrated with excellent sensitivity and a low detection limit of 0.98 pg·mL−1, along with a wide linear range of 1 μg·mL−1 to 1 pg·mL−1. Meanwhile, the specificity, stability and reproducibility of the constructed aptasensor were proved to be satisfactory.

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来源期刊
Bioelectrochemistry
Bioelectrochemistry 生物-电化学
CiteScore
9.10
自引率
6.00%
发文量
238
审稿时长
38 days
期刊介绍: An International Journal Devoted to Electrochemical Aspects of Biology and Biological Aspects of Electrochemistry Bioelectrochemistry is an international journal devoted to electrochemical principles in biology and biological aspects of electrochemistry. It publishes experimental and theoretical papers dealing with the electrochemical aspects of: • Electrified interfaces (electric double layers, adsorption, electron transfer, protein electrochemistry, basic principles of biosensors, biosensor interfaces and bio-nanosensor design and construction. • Electric and magnetic field effects (field-dependent processes, field interactions with molecules, intramolecular field effects, sensory systems for electric and magnetic fields, molecular and cellular mechanisms) • Bioenergetics and signal transduction (energy conversion, photosynthetic and visual membranes) • Biomembranes and model membranes (thermodynamics and mechanics, membrane transport, electroporation, fusion and insertion) • Electrochemical applications in medicine and biotechnology (drug delivery and gene transfer to cells and tissues, iontophoresis, skin electroporation, injury and repair). • Organization and use of arrays in-vitro and in-vivo, including as part of feedback control. • Electrochemical interrogation of biofilms as generated by microorganisms and tissue reaction associated with medical implants.
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