Heterostructured Zn-2MI@V-COF-1@MWCNTs based electrochemical sensor for the sensitive simultaneous detection of ethyl paraben, diclofenac and epinephrine

Heterostructured Zn-2MI@V-COF-1@MWCNTs based electrochemical sensor for the sensitive simultaneous detection of ethyl paraben, diclofenac and epinephrine

Rational designing of practical and cost-effective electrochemical sensor with simultaneous sensing of ethyl paraben (EPB), diclofenac (DIC), and epinephrine (EPN) remains a challenging aspect. With a motive to solve this concern, a low-cost screen printed electrodes (SPCE) sensor with a novel hybri...

Full description

Saved in:
Bibliographic Details
Main Authors: Antonia Trisha Zac R, Yao-An Tsai, Chih-Ling Yeh, Hui-Ling Lee
Format: Article
Language:English
Published: Elsevier 2025-12-01
Series:Talanta Open
Subjects:
Diclofenac
Electrochemical sensor
Epinephrine
Ethyl paraben
Hybrid material
MOF@COF
Online Access:http://www.sciencedirect.com/science/article/pii/S2666831925000906
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Rational designing of practical and cost-effective electrochemical sensor with simultaneous sensing of ethyl paraben (EPB), diclofenac (DIC), and epinephrine (EPN) remains a challenging aspect. With a motive to solve this concern, a low-cost screen printed electrodes (SPCE) sensor with a novel hybrid Zn-2MI@V-COF-1@MWCNTs modifications was put forward. In this work, an octahedral imidazole based metal organic frameworks (Zn-2MI) is combined with a two-dimensional vinylene based covalent organic frameworks (V-COF-1) to form (Zn-MOF@V-COF-1) through a simple room temperature synthesis. This hybrid is further integrated with multi-walled carbon nanotubes (MWCNTs) for enhanced analyte detection. The structural and crystalline nature of the hybrid materials was analysed using PXRD, SEM, and TEM. The material exhibits ideal porosity and a large electroactive area with multiple adsorption sites, resulting in effective, sensitive detection towards EPN, DIC, and EPB. The sensor achieves low detection limits of 0.05 µM for DIC and EPN and 0.5 µM for EPB. Real samples analysis including chili powder, liquid sweetener and energy drink are conducted using differential pulse voltammetry using satisfactory results ranging recovery rates from 81.54 to 105.8 %. These excellent performance outcomes, attributes to the synergistic effect and the presence of multiple active sites elucidates that novel Zn-2MI@V-COF-1@MWCNTs/SPCE are reliable sensors that offers quick screening, cost effective, sensitive, and allow simultaneous detection of harmful analytes in complex matrices.
ISSN:2666-8319

Similar Items