原位生成过氧化氢引发的发光酚标记微珠的电生化学发光。

IF 3.8 2区 化学 Q1 BIOCHEMICAL RESEARCH METHODS
Analytical and Bioanalytical Chemistry Pub Date : 2024-12-01 Epub Date: 2024-06-04 DOI:10.1007/s00216-024-05356-z
Andrea Fiorani, Claudio Ignazio Santo, Kohei Sakanoue, Donato Calabria, Mara Mirasoli, Francesco Paolucci, Giovanni Valenti, Yasuaki Einaga
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引用次数: 0

摘要

我们开发了一种传感策略,模仿基于珠子的电致化学发光免疫分析法。不过,发光体不是最常见的金属复合物,如 Ru 或 Ir,而是发光酚。通过在掺硼金刚石电极上原位电化学生成过氧化氢,促进了发光酚的电生化学发光。过氧化氢的电化学生成是在碳酸盐溶液中通过氧化反应实现的,与此同时,标记有鲁米诺的微珠沉积在电极表面。我们首次证明,发光酚无需在电极上直接氧化就能发光。这种新的发光机制是在比通常的发光酚在 0.3-0.5 V 的电位下产生的化学发光更高的电位下获得的,同时在掺硼金刚石上产生的过氧化氢也在 2-2.5 V 左右(与 Ag/AgCl 相比)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Electrogenerated chemiluminescence from luminol-labelled microbeads triggered by in situ generation of hydrogen peroxide.

Electrogenerated chemiluminescence from luminol-labelled microbeads triggered by in situ generation of hydrogen peroxide.

We developed a sensing strategy that mimics the bead-based electrogenerated chemiluminescence immunoassay. However, instead of the most common metal complexes, such as Ru or Ir, the luminophore is luminol. The electrogenerated chemiluminescence of luminol was promoted by in situ electrochemical generation of hydrogen peroxide at a boron-doped diamond electrode. The electrochemical production of hydrogen peroxide was achieved in a carbonate solution by an oxidation reaction, while at the same time, microbeads labelled with luminol were deposited on the electrode surface. For the first time, we proved that was possible to obtain light emission from luminol without its direct oxidation at the electrode. This new emission mechanism is obtained at higher potentials than the usual luminol electrogenerated chemiluminescence at 0.3-0.5 V, in conjunction with hydrogen peroxide production on boron-doped diamond at around 2-2.5 V (vs Ag/AgCl).

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来源期刊
CiteScore
8.00
自引率
4.70%
发文量
638
审稿时长
2.1 months
期刊介绍: Analytical and Bioanalytical Chemistry’s mission is the rapid publication of excellent and high-impact research articles on fundamental and applied topics of analytical and bioanalytical measurement science. Its scope is broad, and ranges from novel measurement platforms and their characterization to multidisciplinary approaches that effectively address important scientific problems. The Editors encourage submissions presenting innovative analytical research in concept, instrumentation, methods, and/or applications, including: mass spectrometry, spectroscopy, and electroanalysis; advanced separations; analytical strategies in “-omics” and imaging, bioanalysis, and sampling; miniaturized devices, medical diagnostics, sensors; analytical characterization of nano- and biomaterials; chemometrics and advanced data analysis.
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