2023
DOI: 10.3390/molecules28010387
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Multiple Pulse Amperometry—An Antifouling Approach for Nitrite Determination Using Carbon Fiber Microelectrodes

Abstract: Nitrite is a ubiquitous pollutant in modern society. Developing new strategies for its determination is very important, and electroanalytical methods present outstanding performance on this task. However, the use of bare electrodes is not recommended because of their predisposition to poisoning and passivation. We herein report a procedure to overcome these limitations on carbon fiber microelectrodes through pulsed amperometry. A three-pulse amperometry approach was used to reduce the current decay from 47% (a… Show more

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Cited by 8 publications
(5 citation statements)
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“…It seems reasonable to assume that the main reasons for this behavior are the larger specific surface area of the Ni/SnO 2 -BP composite (evidenced by BET measurements) and the fact that the carbonaceous material itself also provides active sites for nitrite anodic oxidation. [25][26][27][28][29] Furthermore, its addition could also to some extent improve the conductivity of the electrocatalytic coating 33 with beneficial effects on electrochemical activity. Similar experiments were also performed by using BP electrodes, and curves 5 and 6 from Fig.…”
Section: Resultsmentioning
confidence: 99%
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“…It seems reasonable to assume that the main reasons for this behavior are the larger specific surface area of the Ni/SnO 2 -BP composite (evidenced by BET measurements) and the fact that the carbonaceous material itself also provides active sites for nitrite anodic oxidation. [25][26][27][28][29] Furthermore, its addition could also to some extent improve the conductivity of the electrocatalytic coating 33 with beneficial effects on electrochemical activity. Similar experiments were also performed by using BP electrodes, and curves 5 and 6 from Fig.…”
Section: Resultsmentioning
confidence: 99%
“…16 To alleviate this drawback, specific electroanalytical procedures were envisaged, aimed at regenerating the electrode surface and, implicitly, at improving sensor lifetime. 29…”
Section: Introductionmentioning
confidence: 99%
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“…For these reasons, multiple pulse amperometric detection (MPAD) was tested, with a three-potentials program applied, consisting of a working potential for the analyte oxidation (E measurement (E meas )), during which the current is recorded and two additional pulses (E 1 and E 2 ) repeatedly applied to regenerate the electrode surface from adsorbed species [65]. Specifically, based on preliminary amperometric measurements, two working potentials were tested, namely 0.35 V and 0.4 V, not including 0.45 V, due to more favorable co-oxidation of other molecules possibly coexisting with tyr in real matrices.…”
Section: Optimization Of Detection Parametersmentioning
confidence: 99%
“…To eliminate the overpotential issue, the modification of the GCE surface with nanoparticles has been applied, which can enhance its adsorption capacity and conductivity and provide more catalytic active sites to improve the detection sensitivity of GCE [ 14 , 15 , 17 ]. The nano/submicron materials of metals [ 18 ], metal oxides [ 14 ], conductive polymers [ 19 ], and carbon and its derivatives [ 20 , 21 , 22 ] are used to modify GCE; among them, Au nanoparticles have become a popular choice for GCE modification due to the chemical stability, biocompatibility, good conductivity, and electrocatalytic activity of gold [ 11 ], and they are often used in combination with other metals [ 23 ], graphene, MOFs [ 12 ] or polymers [ 24 ] to improve the detection sensitivity of GCE. However, the modification process of GCE often requires multiple steps, and the particle sizes and morphologies of the Au nanostructure are difficult to control.…”
Section: Introductionmentioning
confidence: 99%