Sensitive sensing platform based on NiO and NiO-Ni nanoparticles for electrochemical determination of Metronidazole

Darbandi, Masih; Mohajer, Mahsa Fathalipour; Eynollahi, Mahsa; Asadpour‐Zeynali, Karim

doi:10.1016/j.chemphys.2022.111590

Cited by 10 publications

(3 citation statements)

References 56 publications

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“…70 Another series of modifiers are metallic-based compounds like oxides and other derivatives. Darbandi [71][72][73][74][75][76] Among these sensors, it can be observed that the GCE/MoS 2 exhibits the lowest LOD and the widest dynamic range, due to an increased surface area, surface defects, edge effects, and a decreased charge transfer resistance that enables and enhances electron transfer. 76 ZnV MS/GCE is next in line in terms of performance owing to zinc vanadate's high catalytic activity and sonochemical synthesis approach which enhances surface area.…”

Section: Electrochemical Sensors Used For the Determination Of Topica...mentioning

confidence: 99%

Review—Novel Trends in the Determination of Pharmaceutical Compounds Commonly Found in Topical Treatments using Electrochemical Sensing Approaches

Tuchiu,

Stefan-van Staden,

van Staden

2024

J. Electrochem. Soc.

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Topical treatments rely on drugs that play a crucial role in addressing skin and mucous membrane disorders. Therefore, it is highly needed to utilize accurate analytical techniques that can determine the concentration of these chemicals in various sample matrices, including pharmaceuticals, food, and water. Currently, electrochemical sensors are predominantly used in specific fields such as biomedical, industrial, and environmental monitoring, while they have not yet been incorporated into the pharmaceutical manufacturing industry. However, electrochemical methods employing an expanding range of sensors provide a reliable, cost-effective, and efficient substitute for classical analytical methods. Their potential is highly favorable, offering possibilities for simultaneous determination, miniaturization, and real-time on-site monitoring. This work covers numerous sensors designed between 2020 and 2023 for the determination of topical drugs, highlighting their respective benefits and drawbacks while illuminating emerging trends. Moreover, it discusses the correlation between the used materials and the ease of manufacturing, to the achieved results, including dynamic range, detection limit, sensitivity, and selectivity. This work aims to serve as a valuable resource for researchers, engineers, and policymakers in the evolving field of electrochemical sensing by providing guidance and facilitating decision-making, which could lead to significant innovations in sensor technology.

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Section: Electrochemical Sensors Used For the Determination Of Topica...mentioning

confidence: 99%

Review—Novel Trends in the Determination of Pharmaceutical Compounds Commonly Found in Topical Treatments using Electrochemical Sensing Approaches

Tuchiu,

Stefan-van Staden,

van Staden

2024

J. Electrochem. Soc.

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“…16 It is important to note that being a non-biodegradable entity MNZ is least adsorbed on soil and this is the reason why the specific detection and removal is a challenging concern. [17][18][19][20][21] Here, we have perceived our study in the following manner: (1) targeted the synthesis of nonstoichiometric Ag 3.84 Sn 3 S 8 onto reduced graphene oxide (rGO) to prepare a nanocomposite (NC) via a facile solverthermal route where the reduction of GO and the growth of the nanocrystal would be taken place in-situ (2) explored the importance of the desired S vacancy in catalysis (3) tested and optimized the rGO for enhanced catalytic activity by extensive photo-physical, photochemical and electrochemical characterizations. Finally, we have explored the outstanding efficiency of the NC as an excellent electrocatalytic sensor toward ultra-detection of antibiotic MNZ drug.…”

Section: Introductionmentioning

confidence: 99%

“…16 It is important to note that, being a non-biodegradable entity, MNZ is hardly adsorbed on the soil molecules, and this is the reason its specific detection and removal are challenging concerns. 17–21…”

Section: Introductionmentioning

confidence: 99%

In situ fabrication and design of a novel electrochemical sensor based on the Ag_3.84Sn₃S₈@rGO nanocomposite for competitive ultra-detection of metronidazole in human urine

Satra

Mondal

Bhadu³

et al. 2023

Mater. Adv.

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Unlocking Catalytic Potential: Exploring the Impact of Thermal Treatment on Enhanced Electrocatalysis of Nanomaterials

Kogularasu,

Lee,

Sriram

et al. 2023

Angewandte Chemie

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In the evolving field of electrocatalysis, thermal treatment of nano‐electrocatalysts has become an essential strategy for performance enhancement. This review systematically investigates the impact of various thermal treatments on the catalytic potential of nano‐electrocatalysts. The focus encompasses an in‐depth analysis of the changes induced in structural, morphological, and compositional properties, as well as alterations in electro‐active surface area, surface chemistry, and crystal defects. By providing a comprehensive comparison of commonly used thermal techniques, such as annealing, calcination, sintering, pyrolysis, hydrothermal, and solvothermal methods, this review serves as a scientific guide for selecting the right thermal technique and favorable temperature to tailor the nano‐electrocatalysts for optimal electrocatalysis. The resultant modifications in catalytic activity are explored across key electrochemical reactions such as electrochemical (bio)sensing, catalytic degradation, oxygen reduction reaction, hydrogen evolution reaction, overall water splitting, fuel cells, and carbon dioxide reduction reaction. Through a detailed examination of the underlying mechanisms and synergistic effects, this review contributes to a fundamental understanding of the role of thermal treatments in enhancing electrocatalytic properties. The insights provided offer a roadmap for future research aimed at optimizing the electrocatalytic performance of nanomaterials, fostering the development of next‐generation sensors and energy conversion technologies.

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Sensitive sensing platform based on NiO and NiO-Ni nanoparticles for electrochemical determination of Metronidazole

Cited by 10 publications

References 56 publications

Review—Novel Trends in the Determination of Pharmaceutical Compounds Commonly Found in Topical Treatments using Electrochemical Sensing Approaches

Review—Novel Trends in the Determination of Pharmaceutical Compounds Commonly Found in Topical Treatments using Electrochemical Sensing Approaches

In situ fabrication and design of a novel electrochemical sensor based on the Ag_3.84Sn₃S₈@rGO nanocomposite for competitive ultra-detection of metronidazole in human urine

Unlocking Catalytic Potential: Exploring the Impact of Thermal Treatment on Enhanced Electrocatalysis of Nanomaterials

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Sensitive sensing platform based on NiO and NiO-Ni nanoparticles for electrochemical determination of Metronidazole

Cited by 10 publications

References 56 publications

Review—Novel Trends in the Determination of Pharmaceutical Compounds Commonly Found in Topical Treatments using Electrochemical Sensing Approaches

Review—Novel Trends in the Determination of Pharmaceutical Compounds Commonly Found in Topical Treatments using Electrochemical Sensing Approaches

In situ fabrication and design of a novel electrochemical sensor based on the Ag3.84Sn3S8@rGO nanocomposite for competitive ultra-detection of metronidazole in human urine

Unlocking Catalytic Potential: Exploring the Impact of Thermal Treatment on Enhanced Electrocatalysis of Nanomaterials

Contact Info

Product

Resources

About

In situ fabrication and design of a novel electrochemical sensor based on the Ag_3.84Sn₃S₈@rGO nanocomposite for competitive ultra-detection of metronidazole in human urine