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基于相同金属印刷电路板的三电极系统使用铁氰化钾的阻抗研究评估

Evaluation of a same-metal PCB-based three-electrode system impedance studies using potassium ferricyanide.

作者信息

Elumalai Prince Nishchal Narayanaswamy, Thimmarayappa Chethan C, Talebi Sara, Subramaniam Ramesh T, Kasi Ramesh, Iwamoto Mitsumasa, Gnana Kumar Georgepeter, Periasamy Vengadesh

机构信息

Low Dimensional Materials Research Centre (LDMRC), Department of Physics, Faculty of Science, Universiti Malaya 50603 Kuala Lumpur Malaysia

eProfiler Solutions Malaysia Sdn Bhd, Universiti Malaya Suite 3.5, Level 3, UM Innovation Incubator Complex 50603 Kuala Lumpur Malaysia.

出版信息

RSC Adv. 2024 Nov 4;14(47):35035-35046. doi: 10.1039/d4ra06876a. eCollection 2024 Oct 29.

DOI:10.1039/d4ra06876a
PMID:39497772
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11533208/
Abstract

We report for the first time the successful acquisition of electrochemical impedance spectroscopy data using an unconventional same-metal PCB-based three-electrode system. Conventional three-electrode systems primarily require expensive and bulky electrodes, and a high volume of analytes to conduct electrochemical impedance spectroscopy studies. The miniaturized PCB-based three-electrode system used in this work requires only trace amounts of analytes in the order of 10-20 μL owing to the design of the electrode sensor. Prominent standard redox probe potassium ferricyanide was used for impedance spectroscopic characterization studies. The results obtained were in congruence with existing literature; additionally the PCB-based three-electrode system demonstrated significantly higher repeatability, reproducibility, and consistency across different models of electrochemical instrumentations. Interestingly, the electrochemical impedance spectroscopy data of the PCB-3T sensor exhibited a consistent semi-circular impedance curve on a Nyquist plot and two distinct phase change regions on a Bode plot indicative of a simplified Randles cell model with an excellent circuit fit. Additionally this model provides an accurate impedance model for analysing trace analytes of potassium ferricyanide. Based on the circuit fitting model, potassium ferricyanide samples of varying concentrations at 1 mM, 5 mM, 10 mM, 15 mM and 20 mM demonstrated characteristic EIS charge transfer resistance corresponding to 435, 300, 233, 72 and 55 kΩ, respectively, and solution resistance of 260, 254, 218, 169 and 157 Ω, respectively. Therefore, the proposed novel same-metal three-electrode sensor can be employed in effective analysis and detection of samples with high accuracy and high sensitivity for trace amounts of analytes.

摘要

我们首次报告了使用基于印刷电路板(PCB)的非常规同金属三电极系统成功采集电化学阻抗谱数据。传统的三电极系统主要需要昂贵且体积庞大的电极,以及大量的分析物来进行电化学阻抗谱研究。由于电极传感器的设计,本工作中使用的基于印刷电路板的小型化三电极系统仅需要痕量的分析物,数量级为10 - 20微升。使用了突出的标准氧化还原探针铁氰化钾进行阻抗谱表征研究。获得的结果与现有文献一致;此外,基于印刷电路板的三电极系统在不同型号的电化学仪器上表现出显著更高的重复性、再现性和一致性。有趣的是,PCB - 3T传感器的电化学阻抗谱数据在奈奎斯特图上呈现出一致的半圆形阻抗曲线,在博德图上呈现出两个不同的相变区域,这表明是一个简化的兰德尔电池模型,具有出色的电路拟合。此外,该模型为分析铁氰化钾的痕量分析物提供了准确的阻抗模型。基于电路拟合模型,浓度分别为1 mM、5 mM、10 mM、15 mM和20 mM的不同浓度铁氰化钾样品的特征电化学阻抗谱电荷转移电阻分别对应于435、300、233、72和55 kΩ,溶液电阻分别为260、254、218、169和157 Ω。因此,所提出的新型同金属三电极传感器可用于对痕量分析物进行高精度和高灵敏度的有效分析和检测。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/738f/11533208/e4683128523c/d4ra06876a-f9.jpg
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