Measurement of Zinc Ions in Seawater Samples Using a Microfluidic System Based on the GR/CeO2/Nafion Material

Considering that heavy-metal contamination of seawater is getting worse, building a quick, accurate and portable device for detecting trace zinc in seawater in real time would be very beneficial. In this work, a microfluidic system was developed that includes a planar disc electrode, a micro-cavity...

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Published in:Molecules (Basel, Switzerland) Switzerland), 2024-06, Vol.29 (12), p.2867
Main Authors: Tao, Wei, Zeng, Zexi, Qiu, Chengjun, Qu, Wei, Zhuang, Yuan, Gu, Yang, Hao, Huili, Zhao, Zizi
Format: Article
Language:English
Subjects:
Cerium oxides
electrochemistry
Electrodes
graphene
Heavy metals
Nitrates
planar disc electrodes
Reagents
Scientific imaging
Seawater
Simulation
Voltammetry
Work stations
Zinc
zinc ions
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Summary:Considering that heavy-metal contamination of seawater is getting worse, building a quick, accurate and portable device for detecting trace zinc in seawater in real time would be very beneficial. In this work, a microfluidic system was developed that includes a planar disc electrode, a micro-cavity for detection, an electrochemical workstation, a computer, a container for waste liquid reprocessing, an external pipeline and other components as well as a graphene/cerium oxide/nano-cerium oxide/Nafion composite membrane was used to modify the planar disc electrode (GR/CeO2/Nafion/Au) to investigate the electrochemical behaviour of Zn(II) using cyclic voltammetry, square-wave voltammetry and orthogonal test methods. Under optimal experimental conditions, the peak reaction current of Zn(II) showed a good linear relationship with the concentration of Zn(II) in the range of 1–900 μg/L with a correlation coefficient of 0.998, and the detection limit of the method was 0.87 μg/L. In addition, the microfluidic system had good stability, reproducibility and anti-interference. The system was used for determining zinc ions in real seawater samples, and the results were very similar to those of inductively coupled plasma–emission spectrometry, demonstrating the practicality of the system for the detection of trace zinc.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules29122867