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基于 Zn-NGQDs 和基于卟啉的 MOF 协同效应的超灵敏固态 ECL 生物传感器作为“开-关-开”平台。

An ultrasensitive solid-state ECL biosensor based on synergistic effect between Zn-NGQDs and porphyrin-based MOF as "on-off-on" platform.

机构信息

Laboratory of Pharmacy and Chemistry and Laboratory of Tissue and Cell Biology, Lab Teaching & Management Center, Chongqing Medical University, Chongqing 401331, China.

College of Biomedical Engineering, Chongqing Medical University, Chongqing 401331, China.

出版信息

Colloids Surf B Biointerfaces. 2023 Jun;226:113322. doi: 10.1016/j.colsurfb.2023.113322. Epub 2023 Apr 20.

DOI:10.1016/j.colsurfb.2023.113322
PMID:37105065
Abstract

To develop an ultra-sensitive solid-state electrochemiluminescence (ECL) biosensor for detection of miRNA 24, three different forms of porphyrin metal-organic framework (MOF) nanomaterials with good biocompatibility were synthesized through small molecule ligand modulation. We investigated various properties of synthesized MOFs in the presence of different small molecule ligands. The as-obtained 2D MOF nanodisk exhibited high ECL intensity and outstanding stability in the presence of a co-reactant at low concentrations. We also synthesized zinc-based quantum dots (Zn-NGQDs) with excellent photovoltaic properties by doping zinc dithiothreitol (DTT-Zn) into quantum dots. Accordingly, an enzyme-free solid-state ECL biosensor for miRNA 24 based on the "on-off-on" signal conversion strategy was created. Dependent on the synergy between the luminophor 2D MOF and Zn-NGQDs, the biosensor achieves a wide linear range from 1.00 × 10 to 1.00 × 10 mol·L and an exceedingly low detection limit of 0.03 fM. Furthermore, the ECL biosensor exhibits outstanding selectivity, repeatability, and stability. The method has great potential for investigating sensitive detection models for various biomolecules and the design of highly efficient MOF luminescent materials.

摘要

为了开发用于检测 miRNA 24 的超灵敏固态电化学发光(ECL)生物传感器,我们通过小分子配体调节合成了三种具有良好生物相容性的不同形式的卟啉金属有机骨架(MOF)纳米材料。我们研究了在存在不同小分子配体的情况下合成的 MOFs 的各种性质。所获得的二维 MOF 纳米盘在低浓度下存在共反应物时表现出高 ECL 强度和出色的稳定性。我们还通过将锌二硫苏糖醇(DTT-Zn)掺杂到量子点中合成了具有优异光伏性能的基于锌的量子点(Zn-NGQDs)。因此,创建了基于“开-关-开”信号转换策略的无酶固态 ECL 生物传感器用于 miRNA 24 的检测。依赖于发光体二维 MOF 和 Zn-NGQDs 的协同作用,该生物传感器在 1.00×10至 1.00×10 mol·L 的宽线性范围内实现了极低的检测限 0.03 fM。此外,ECL 生物传感器表现出出色的选择性、重复性和稳定性。该方法在研究各种生物分子的敏感检测模型和高效 MOF 发光材料的设计方面具有巨大的潜力。

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