利用纳米孔阵列电极上的表面等离子体共振监测左旋多巴的氧化和还原反应。

Monitoring levodopa oxidation and reduction reactions using surface plasmon resonance on a nanohole array electrode.

作者信息

Peng Hao-Fang, Chang Chih-Kang, Gupta Rohit, Huang Jian-Jang

机构信息

Graduate Institute of Photonics and Optoelectronics, National Taiwan University, Taipei, 10617, Taiwan.

Department of Electrical Engineering, National Taiwan University, Taipei, 10617, Taiwan.

出版信息

Discov Nano. 2023 Nov 28;18(1):145. doi: 10.1186/s11671-023-03930-5.

DOI:10.1186/s11671-023-03930-5

PMID:38015329

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10684436/

Abstract

The traditional method of monitoring the oxidation and reduction of biomedical materials usually relies on electrochemical (EC) measurement techniques. Here, we demonstrate a surface plasmon resonance (SPR) method to monitor the oxidation process. Using levodopa L-dopa as the target analyte, a nanohole sensing plate is embedded in the EC electrode to enhance the oxidation signal and generate SPR. Cyclic voltammetry (CV) measurement was first conducted to understand the baseline of EC response of L-Dopa. Then, the redox reactions were simultaneously monitored through SPR measurements during the CV voltage scan. The results showed that the limit of detection using traditional CV reached 1.47 μM while using EC-SPR, the limit of detection improved to 1.23 μM. Most importantly, we found a strong correlation between CV current profiles and the SPR reflection spectra. Our results facilitate detecting electrochemical reactions using an optical probing method.

摘要

监测生物医学材料氧化还原的传统方法通常依赖于电化学（EC）测量技术。在此，我们展示一种表面等离子体共振（SPR）方法来监测氧化过程。以左旋多巴（L - 多巴）作为目标分析物，在EC电极中嵌入一个纳米孔传感板以增强氧化信号并产生SPR。首先进行循环伏安法（CV）测量以了解L - 多巴的EC响应基线。然后，在CV电压扫描期间通过SPR测量同时监测氧化还原反应。结果表明，使用传统CV的检测限达到1.47 μM，而使用EC - SPR时，检测限提高到1.23 μM。最重要的是，我们发现CV电流曲线与SPR反射光谱之间存在很强的相关性。我们的结果有助于使用光学探测方法检测电化学反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee0f/10684436/9daea22461c2/11671_2023_3930_Fig1_HTML.jpg

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利用纳米孔阵列电极上的表面等离子体共振监测左旋多巴的氧化和还原反应。

Monitoring levodopa oxidation and reduction reactions using surface plasmon resonance on a nanohole array electrode.

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