Development and Characterization of a Sol-Gel-Functionalized Glass Carbon Electrode Probe for Sensing Ultra-Trace Amounts of NH 3 and NH 4 + in Water

This study centers on the development and characterization of an innovative electrochemical sensing probe composed of a sensing mesoporous functional sol-gel coating integrated onto a glassy carbon electrode (sol-gel/GCE) for the detection of NH and/or NH in water. The main interest for integrating...

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Bibliographic Details
Published in:Gels 2024-06, Vol.10 (6)
Main Authors: Alwael, H, Oubaha, M, El-Shahawi, M S
Format: Article
Language:English
Online Access:Get full text
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Summary:This study centers on the development and characterization of an innovative electrochemical sensing probe composed of a sensing mesoporous functional sol-gel coating integrated onto a glassy carbon electrode (sol-gel/GCE) for the detection of NH and/or NH in water. The main interest for integrating a functional sol-gel coating onto a GCE is to increase the selective and sensing properties of the GCE probe towards NH and/or NH ions. The structure and surface morphology of the newly developed sol-gel/GCE probe were characterized employing scanning electron microscopy (SEM), atomic force microscopy (AFM), dynamic light scattering (DLS), and Fourier-transform infrared (FTIR), while the electrochemical sensing properties were evaluated by Berthelot's reaction, cyclic voltammetry (CV), and adsorptive square wave-anodic striping voltammetry (Ads SW-ASV). It is shown that the newly developed sol-gel coating is homogeneously deposited on the GCE with a sub-micron and uniform thickness close to 630 nm and a surface roughness of 25 nm. The sensing testing of the sol-gel/GCE probe showed limits of detection and limits of quantitation of 1.7 and 5.56 nM of NH , respectively, as well as a probe sensitivity of 5.74 × 10 μA/μM cm . The developed probe was fruitfully validated for the selective detection of NH /NH in fresh and sea water samples. Computed Student (0.45-1.25) and (1.69-1.78) ( = 5) tests were less than the theoretical (2.78) and (6.39) at 95% probability.
ISSN:2310-2861
DOI:10.3390/gels10060382