Issue 9, 2024

Wireless rotating bipolar electrochemiluminescence for enzymatic detection

Abstract

New dynamic, wireless and cost-effective analytical devices are developing rapidly in biochemical analysis. Here, we report on a remotely-controlled rotating electrochemiluminescence (ECL) sensing system for enzymatic detection of a model analyte, glucose, on both polarized sides of an iron wire acting as a bipolar electrode. The iron wire is controlled by double contactless mode, involving remote electric field polarization, and magnetic field-induced rotational motion. The former triggers the interfacial polarization of both extremities of the wire by bipolar electrochemistry, which generates ECL emission of the luminol derivative (L-012) with the enzymatically produced hydrogen peroxide in presence of glucose, at both anodic and cathodic poles, simultaneously. The latter generates a convective flow, leading to an increase in mass transfer and amplifying the corresponding ECL signals. Quantitative glucose detection in human serum samples is achieved. The ECL signals were found to be a linear function of the glucose concentration within the range of 10–1000 μM and with a limit of detection of 10 μM. The dynamic bipolar ECL system simultaneously generates light emissions at both anodic and cathodic poles for glucose detection, which can be further applied to biosensing and imaging in autonomous devices.

Graphical abstract: Wireless rotating bipolar electrochemiluminescence for enzymatic detection

Supplementary files

Article information

Article type
Paper
Submitted
06 Mar 2024
Accepted
26 Mar 2024
First published
27 Mar 2024
This article is Open Access
Creative Commons BY-NC license

Analyst, 2024,149, 2756-2761

Wireless rotating bipolar electrochemiluminescence for enzymatic detection

C. Li, M. Feng, D. Stanković, L. Bouffier, F. Zhang, Z. Wang and N. Sojic, Analyst, 2024, 149, 2756 DOI: 10.1039/D4AN00365A

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