Electrochemical Behavior of Graphene‐Based Sensors on the Redox Mechanism of Aspirin

Patil, Shreekant M.; Sataraddi, Sanjeevaraddi R.; Bagoji, Atmanand M.; Pathan, Riyazkhan M.; Nandibewoor, Sharanappa T.

doi:10.1002/elan.201300650

Cited by 34 publications

(10 citation statements)

References 26 publications

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“…This then rearranges further with one electron transfer to yield 2, 5-dihydroxybenzoic acid as the final product. Thus, the mechanism of the redox process of CF and ASA is proposed in Scheme 1 , based on the previous literature [18,41,42] .…”

Section: Effects Of Ph and Scan Ratementioning

confidence: 99%

Electrochemical determination of aspirin and caffeine at MWCNTs-poly-4-vinylpyridine composite modified electrode

Ghadimi

M.A.Tehrani

Basirun

et al. 2016

Journal of the Taiwan Institute of Chemical Engineers

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Section: Effects Of Ph and Scan Ratementioning

confidence: 99%

Electrochemical determination of aspirin and caffeine at MWCNTs-poly-4-vinylpyridine composite modified electrode

Ghadimi

M.A.Tehrani

Basirun

et al. 2016

Journal of the Taiwan Institute of Chemical Engineers

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“…Dropsens.com). A critical advantage of the system advocated here is the fact that the sensor does not require extensive modification with nanoparticles [18,19], graphene [23,24] or enzymes [25]. The reagentless nature provides a procedurally simple solution with a clear analytical signal arising from the dimer's reduction peak process.…”

Section: Discussionmentioning

confidence: 99%

“…The application of electrochemical techniques to the detection of salicylic acid has traditionally been beset by a number of issues -mainly the large anodic potentials required to oxidise the analyte and the subsequent fouling of the electrode by oligomeric/polymeric oxidation products. A variety of approaches have been taken to minimise the effects of the latter and include: carbon electrodes [17], carbon with gold/iron oxide nanoparticles [18], gold electrodes coated with copper nanoparticles [19], platinum electrodes [20,21], screen printed electrodes [22], graphene based systems [23,24] and enzyme electrodes [25,26]. Park and Eun (2016) have postulated that while passivating polymeric films can arise, a number of additional products will also be formed [27] and the various possibilities are outlined in Scheme 2.…”

Section: Methodsmentioning

confidence: 99%

Rapid determination of salicylic acid at screen printed electrodes

Rawlinson

McLister

Kanyong

et al. 2018

Microchemical Journal

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The pain relief capabilities of salicylate are well established and a multitude of over the counter products populate pharmacy shelves. Over application of the preparations, through accidental or deliberate misuse, can all too often result in salicylate poisoning and, in severe cases, can be fatal. A novel detection strategy involving the quantification of the quinone byproducts arising from the electrochemical oxidation of salicylate is described. The approach has been adapted for use with a disposable screen-printed electrode and found to exhibit a high sensitivity towards salicylate which is free from the electroactive interferences that compromise the direct oxidative route. A linear range of 16 to 300 M was observed with a limit of detection of 5.6 M. The analytical applicability of the approach was demonstrated through recovery experiments of 100 M salicylate in urine.

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“…Banks and Brownson (2010) demonstrated that the enhanced electron transfer of graphene occurs at its edge, and the presence of oxygen-containing groups at its edges can influence the adsorption/desorption of molecules that takes place before and after an electrochemical reaction. Moreover graphene has been used in the preparation of electrochemical sensor (Huang et al, 2013;Patil et al, 2014). Owing to the unique properties of large surface area, excellent conductivity, good chemical stability and easy fabrication, graphene oxide (GO) has been the star material in a variety of material sciences, electronic devices, sensors and electrocatalysis (Ai et al, 2014;Prabakaran and Pandian, 2015;Zhang et al, 2011).…”

Section: Introductionmentioning

confidence: 97%

Study the voltammetric behavior of 10-Hydroxycamptothecin and its sensitive determination at electrochemically reduced graphene oxide modified glassy carbon electrode

Wang

et al. 2019

Arabian Journal of Chemistry

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The electrochemical properties of 10-Hydroxycamptothecin were investigated systematically at a reduced graphene oxide modified glassy carbon electrode. A new pair of redox peaks of 10-Hydroxycamptothecin was reported for the first time with quasi-reversible process driven by adsorption. The dynamics parameters of electrode process were calculated using various electrochemical techniques. Owing to the large surface area, good conductivity of electrochemically reduced graphene oxide, the sensor exhibited sensitive activity for 10-Hydroxycamptothecin, displaying a wide linear response from 1.5 · 10 À8 mol L À1 to 5.0 · 10 À7 mol L À1 and 5.0 · 10 À7 mol L À1 to 3.0 · 10 À6 mol L À1 (Fig. 8). A simple, sensitive and new voltammetric method for the determination of 10-Hydroxycamptothecin was proposed with a determination limit of 1.5 · 10 À8 mol L À1 and recoveries were determined in the range of 94.2-104%. ª 2015 The Authors. Production and hosting by Elsevier B.V. on behalf of King Saud University. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

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Electrochemical Behavior of Graphene‐Based Sensors on the Redox Mechanism of Aspirin

Cited by 34 publications

References 26 publications

Electrochemical determination of aspirin and caffeine at MWCNTs-poly-4-vinylpyridine composite modified electrode

Electrochemical determination of aspirin and caffeine at MWCNTs-poly-4-vinylpyridine composite modified electrode

Rapid determination of salicylic acid at screen printed electrodes

Study the voltammetric behavior of 10-Hydroxycamptothecin and its sensitive determination at electrochemically reduced graphene oxide modified glassy carbon electrode

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