A mechanothermal approach for the synthesis of Fe3O4 nanoparticles as dopant on mesoporous TiO2 for electrochemical determination of catechol
The subject of water contamination and how it gets defiled to the society and humans is confabulating from the past decades. Phenolic compounds widely exist in the water sources and it is emergent to determine the toxicity in natural and drinking water, because it is hazardous to the humans. Among t...
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my.utm.1069042024-08-01T05:51:02Z http://eprints.utm.my/106904/ A mechanothermal approach for the synthesis of Fe3O4 nanoparticles as dopant on mesoporous TiO2 for electrochemical determination of catechol Manoj, Devaraj Gnanasekaran, Lalitha Rajendran, Saravanan Jalil, A. A. Siddiqui, Mohammad Nahid Gracia, F. Soto-Moscoso, Matias TP Chemical technology The subject of water contamination and how it gets defiled to the society and humans is confabulating from the past decades. Phenolic compounds widely exist in the water sources and it is emergent to determine the toxicity in natural and drinking water, because it is hazardous to the humans. Among these compounds, catechol has sought a strong concern because of its rapid occurrence in nature and its potential toxicity to humans. The present work aims to develop an effective electrochemical sensing of catechol using mesoporous structure of Fe3O4–TiO2 decorated on glassy carbon (GC) electrode. The creation of pure TiO2 using the sol-gel technique was the first step in the synthesis protocol for binary nanocomposite, which was then followed by the loading of Fe3O4 nanoparticles on the surface of TiO2 using the thermal decomposition method. The resultant Fe3O4–TiO2 based nanocomposite exhibited mesoporous structure and the cavities were occupied with highly active magnetite nanoparticles (Fe3O4) with high specific surface area (90.63 m2/g). When compared to pure TiO2, catechol showed a more prominent electrochemical response for Fe3O4–TiO2, with a significant increase in anodic peak current at a lower oxidation potential (0.387 V) with a detection limit of 45 µM. Therefore, the prepared magnetite binary nanocomposite can serve as an efficient electroactive material for sensing of catechol, which could also act as a promising electrocatalyst for various electrocatalytic applications. Academic Press Inc. 2023 Article PeerReviewed Manoj, Devaraj and Gnanasekaran, Lalitha and Rajendran, Saravanan and Jalil, A. A. and Siddiqui, Mohammad Nahid and Gracia, F. and Soto-Moscoso, Matias (2023) A mechanothermal approach for the synthesis of Fe3O4 nanoparticles as dopant on mesoporous TiO2 for electrochemical determination of catechol. Environmental Research, 222 (NA). NA-NA. ISSN 0013-9351 http://dx.doi.org/10.1016/j.envres.2023.115358 DOI : 10.1016/j.envres.2023.115358 |
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TP Chemical technology Manoj, Devaraj Gnanasekaran, Lalitha Rajendran, Saravanan Jalil, A. A. Siddiqui, Mohammad Nahid Gracia, F. Soto-Moscoso, Matias A mechanothermal approach for the synthesis of Fe3O4 nanoparticles as dopant on mesoporous TiO2 for electrochemical determination of catechol |
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The subject of water contamination and how it gets defiled to the society and humans is confabulating from the past decades. Phenolic compounds widely exist in the water sources and it is emergent to determine the toxicity in natural and drinking water, because it is hazardous to the humans. Among these compounds, catechol has sought a strong concern because of its rapid occurrence in nature and its potential toxicity to humans. The present work aims to develop an effective electrochemical sensing of catechol using mesoporous structure of Fe3O4–TiO2 decorated on glassy carbon (GC) electrode. The creation of pure TiO2 using the sol-gel technique was the first step in the synthesis protocol for binary nanocomposite, which was then followed by the loading of Fe3O4 nanoparticles on the surface of TiO2 using the thermal decomposition method. The resultant Fe3O4–TiO2 based nanocomposite exhibited mesoporous structure and the cavities were occupied with highly active magnetite nanoparticles (Fe3O4) with high specific surface area (90.63 m2/g). When compared to pure TiO2, catechol showed a more prominent electrochemical response for Fe3O4–TiO2, with a significant increase in anodic peak current at a lower oxidation potential (0.387 V) with a detection limit of 45 µM. Therefore, the prepared magnetite binary nanocomposite can serve as an efficient electroactive material for sensing of catechol, which could also act as a promising electrocatalyst for various electrocatalytic applications. |
format |
Article |
author |
Manoj, Devaraj Gnanasekaran, Lalitha Rajendran, Saravanan Jalil, A. A. Siddiqui, Mohammad Nahid Gracia, F. Soto-Moscoso, Matias |
author_facet |
Manoj, Devaraj Gnanasekaran, Lalitha Rajendran, Saravanan Jalil, A. A. Siddiqui, Mohammad Nahid Gracia, F. Soto-Moscoso, Matias |
author_sort |
Manoj, Devaraj |
title |
A mechanothermal approach for the synthesis of Fe3O4 nanoparticles as dopant on mesoporous TiO2 for electrochemical determination of catechol |
title_short |
A mechanothermal approach for the synthesis of Fe3O4 nanoparticles as dopant on mesoporous TiO2 for electrochemical determination of catechol |
title_full |
A mechanothermal approach for the synthesis of Fe3O4 nanoparticles as dopant on mesoporous TiO2 for electrochemical determination of catechol |
title_fullStr |
A mechanothermal approach for the synthesis of Fe3O4 nanoparticles as dopant on mesoporous TiO2 for electrochemical determination of catechol |
title_full_unstemmed |
A mechanothermal approach for the synthesis of Fe3O4 nanoparticles as dopant on mesoporous TiO2 for electrochemical determination of catechol |
title_sort |
mechanothermal approach for the synthesis of fe3o4 nanoparticles as dopant on mesoporous tio2 for electrochemical determination of catechol |
publisher |
Academic Press Inc. |
publishDate |
2023 |
url |
http://eprints.utm.my/106904/ http://dx.doi.org/10.1016/j.envres.2023.115358 |
_version_ |
1806442425279840256 |