Electrochemical assisted enhanced nanozymatic activity of functionalized borophene for H2O2 and tetracycline detection
This study unveils the electrochemically-enhanced nanozymatic activity exhibited by borophene during the reaction of 3,3 `,5,5 `-tetramethylbenzidine (TMB) and H2O2. Herein, the surface of the pristine borophene was first modified with the addition of thiocyanate groups to improve hydroxyl radical (...
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2024
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my.um.eprints.459662024-10-17T04:23:35Z http://eprints.um.edu.my/45966/ Electrochemical assisted enhanced nanozymatic activity of functionalized borophene for H2O2 and tetracycline detection Ahmed, Syed Rahin Sherazee, Masoomeh Das, Poushali Shalauddin, Md Akhter, Shamima Basirun, Wan Jefrey Srinivasan, Seshasai Rajabzadeh, Amin Reza QD Chemistry T Technology (General) This study unveils the electrochemically-enhanced nanozymatic activity exhibited by borophene during the reaction of 3,3 `,5,5 `-tetramethylbenzidine (TMB) and H2O2. Herein, the surface of the pristine borophene was first modified with the addition of thiocyanate groups to improve hydroxyl radical (center dot OH) scavenging activity. Then, the oxidation reaction of TMB was accelerated under applied electrochemical potential. Both factors significantly improved the detection limit and drastically decreased the detection time. DPPH testing revealed that the radical scavenging nature of borophene was more than 70%, boosting its catalytic activity. In the presence of H2O2, borophene catalyzed the oxidation of TMB and produced a blue-colored solution that was linearly correlated with the concentration of H2O2 and allowed for the detection of H2O2 up to 38 nM. The present finding was further extended to nanozymatic detection of tetracyclines (TCs) using a target-specific aptamer, and the results were colorimetrically quantifiable up to 1 mu M with a LOD value of 150 nM. Moreover, transferring the principles of the discussed detection method to form a portable and disposable paper-based system enabled the quantification of TCs up to 0.2 mu M. All the sensing experiments in this study indicate that the nanozymatic activity of borophene has significantly improved under electrochemical potential compared to conventional nanozyme-based colorimetric detection. Hence, the present discovery of electrochemicallyenhanced nanozymatic activity would be promising for various sensitive and time-dependent colorimetric sensor development initiatives in the future. Elsevier Advanced Technology 2024-02 Article PeerReviewed Ahmed, Syed Rahin and Sherazee, Masoomeh and Das, Poushali and Shalauddin, Md and Akhter, Shamima and Basirun, Wan Jefrey and Srinivasan, Seshasai and Rajabzadeh, Amin Reza (2024) Electrochemical assisted enhanced nanozymatic activity of functionalized borophene for H2O2 and tetracycline detection. Biosensors & bioelectronics, 246. ISSN 0956-5663, DOI https://doi.org/10.1016/j.bios.2023.115857 <https://doi.org/10.1016/j.bios.2023.115857>. 10.1016/j.bios.2023.115857 |
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QD Chemistry T Technology (General) Ahmed, Syed Rahin Sherazee, Masoomeh Das, Poushali Shalauddin, Md Akhter, Shamima Basirun, Wan Jefrey Srinivasan, Seshasai Rajabzadeh, Amin Reza Electrochemical assisted enhanced nanozymatic activity of functionalized borophene for H2O2 and tetracycline detection |
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This study unveils the electrochemically-enhanced nanozymatic activity exhibited by borophene during the reaction of 3,3 `,5,5 `-tetramethylbenzidine (TMB) and H2O2. Herein, the surface of the pristine borophene was first modified with the addition of thiocyanate groups to improve hydroxyl radical (center dot OH) scavenging activity. Then, the oxidation reaction of TMB was accelerated under applied electrochemical potential. Both factors significantly improved the detection limit and drastically decreased the detection time. DPPH testing revealed that the radical scavenging nature of borophene was more than 70%, boosting its catalytic activity. In the presence of H2O2, borophene catalyzed the oxidation of TMB and produced a blue-colored solution that was linearly correlated with the concentration of H2O2 and allowed for the detection of H2O2 up to 38 nM. The present finding was further extended to nanozymatic detection of tetracyclines (TCs) using a target-specific aptamer, and the results were colorimetrically quantifiable up to 1 mu M with a LOD value of 150 nM. Moreover, transferring the principles of the discussed detection method to form a portable and disposable paper-based system enabled the quantification of TCs up to 0.2 mu M. All the sensing experiments in this study indicate that the nanozymatic activity of borophene has significantly improved under electrochemical potential compared to conventional nanozyme-based colorimetric detection. Hence, the present discovery of electrochemicallyenhanced nanozymatic activity would be promising for various sensitive and time-dependent colorimetric sensor development initiatives in the future. |
| format |
Article |
| author |
Ahmed, Syed Rahin Sherazee, Masoomeh Das, Poushali Shalauddin, Md Akhter, Shamima Basirun, Wan Jefrey Srinivasan, Seshasai Rajabzadeh, Amin Reza |
| author_facet |
Ahmed, Syed Rahin Sherazee, Masoomeh Das, Poushali Shalauddin, Md Akhter, Shamima Basirun, Wan Jefrey Srinivasan, Seshasai Rajabzadeh, Amin Reza |
| author_sort |
Ahmed, Syed Rahin |
| title |
Electrochemical assisted enhanced nanozymatic activity of functionalized borophene for H2O2 and tetracycline detection |
| title_short |
Electrochemical assisted enhanced nanozymatic activity of functionalized borophene for H2O2 and tetracycline detection |
| title_full |
Electrochemical assisted enhanced nanozymatic activity of functionalized borophene for H2O2 and tetracycline detection |
| title_fullStr |
Electrochemical assisted enhanced nanozymatic activity of functionalized borophene for H2O2 and tetracycline detection |
| title_full_unstemmed |
Electrochemical assisted enhanced nanozymatic activity of functionalized borophene for H2O2 and tetracycline detection |
| title_sort |
electrochemical assisted enhanced nanozymatic activity of functionalized borophene for h2o2 and tetracycline detection |
| publisher |
Elsevier Advanced Technology |
| publishDate |
2024 |
| url |
http://eprints.um.edu.my/45966/ |
| _version_ |
1814047573823979520 |
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13.211869 |