Electrochemical evaluation of naproxen through Au@f-CNT/GO nanocomposite in environmental water and biological samples

An electrochemical sensor based on Au@f-CNT/GO/GCE for detection of Naproxen. [Display omitted] The cytotoxic dosage of exposed drug waste is frequently discharging on aquatic surfaces via wastewater treatment plants and pharma industries. Early detection of these drug wastes with a reliable and acc...

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Published in:Journal of industrial and engineering chemistry (Seoul, Korea) 2021, 104(0), , pp.32-42
Main Authors: Alagumalai, Krishnapandi, Musuvadhi Babulal, Sivakumar, Chen, Shen-Ming, Shanmugam, Ragurethinam, Yesuraj, Johnbosco
Format: Article
Language:English
Subjects:
Gold nanoparticles
Graphene oxide
Naproxen
Oxidized single-walled carbon nanotube
Voltammetry
화학공학
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cited_by cdi_FETCH-LOGICAL-c334t-cbb20dbb651c78bdd0fdfb84753ad5cd0834ba61ad6960f47313553425db3c9f3
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container_title Journal of industrial and engineering chemistry (Seoul, Korea)
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creator Alagumalai, Krishnapandi
Musuvadhi Babulal, Sivakumar
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description An electrochemical sensor based on Au@f-CNT/GO/GCE for detection of Naproxen. [Display omitted] The cytotoxic dosage of exposed drug waste is frequently discharging on aquatic surfaces via wastewater treatment plants and pharma industries. Early detection of these drug wastes with a reliable and accurate are in great need. In this report, a noble metal effectively doped on oxidized one-dimensional (1D) single-walled carbon nanotube and abundant oxygen functional groups presenting two-dimensional (2D) graphene oxide on its surface, and hydrophobic cavities are the promising selector towards electrochemical oxidation of Naproxen (NPZ). A hybrid nanocomposite Au@f-CNT/GO was engineered by the ultrasound-assist sonication method and employed for the ultra-quantification of the therapeutic drug NPZ. In addition, various physicochemical and analytical techniques were utilized to confirm the successful formation of composite and principal detection of NPZ. Au@f-CNT/GO fabricated glassy carbon electrode exhibits a low resistance and higher electrocatalytic activity toward NPZ sensing. In addition, under the optimized condition, the sensor demonstrates an acceptable linear range of 100 nM − 15.6 µM, a lower limit of detection of 14 nM (S/N = 3), and higher sensitivity of 1.7484 μA μM−1 cm2. Furthermore, the proposed sensor has high selectivity, stability, reproducibility, and repeatability. Moreover, real sample analysis shows appreciable recovery results of 96 to 99% which strongly suggests that the proposed sensor has potential applicability for the sensitive detection of NPZ in the various water and biological samples.
doi_str_mv 10.1016/j.jiec.2021.08.009
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subjects Gold nanoparticles
Graphene oxide
Naproxen
Oxidized single-walled carbon nanotube
Voltammetry
화학공학
title Electrochemical evaluation of naproxen through Au@f-CNT/GO nanocomposite in environmental water and biological samples
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