Modification of screenprinted carbon electrode (SPCE) with gold nanostructures for electrochemical detection of nicotine / Nur Asyiqin Azman
The determination of nicotine, a highly addictive compound found in tobacco products, requires reliable and sensitive analytical methods. Screen-printed carbon electrodes (SPCEs) have emerged as a cost-effective and portable platform for nicotine detection. Aside, the low active surface area of the...
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my.uitm.ir.1068272024-11-27T07:21:08Z https://ir.uitm.edu.my/id/eprint/106827/ Modification of screenprinted carbon electrode (SPCE) with gold nanostructures for electrochemical detection of nicotine / Nur Asyiqin Azman Azman, Nur Asyiqin Production from solar energy The determination of nicotine, a highly addictive compound found in tobacco products, requires reliable and sensitive analytical methods. Screen-printed carbon electrodes (SPCEs) have emerged as a cost-effective and portable platform for nicotine detection. Aside, the low active surface area of the carbon electrode in SPCE poses challenges in detecting trace amounts of samples. Hence, the sensitivity and selectivity of SPCEs for nicotine detection can be improved by electrodepositing gold nanostructures on SPCE. Nonetheless, the electrochemical performance of the electrode is usually affected by the morphological structure of the gold (Au) and the major challenge in producing gold nanostructures revolves around controlling their size, shape and stability. Therefore, this study aimed to develop a modified screen-printed carbon electrode (SPCE) with gold nanostructures (AuNS) using three different electrodeposition approaches namely deposition at low overpotential by cyclic voltammogram to produce gold nanoparticles (AuNP), electrodeposition using hydrogen bubble dynamic template (at hydrogen evolution reaction) to produce gold with the dendritic network (AuDS) and dealloying of gold-copper (Au-Cu) alloy to produce nanoporous gold (NPG) electrode. The modified electrodes were evaluated for their electrocatalytic performance and stability in the electrochemical detection of nicotine. By manipulating deposition parameters such as deposition cycle for the first approach, deposition potential for the second approach, and dealloying cycle for the third approach, different surface morphologies of AuNS, including nanoparticles, nanodendrites, and nanoporous structures were obtained. The optimum conditions for electrodeposition of the AuNS electrode with the highest electrochemically active surface area (ECSA) and electrocatalytic properties were produced from the second approach by applying a constant potential at -1.1V for 15 minutes, resulting in the formation of Au dendritic networks (AuDS-(-1.1V)). The AuDS-(-1.1V) electrode exhibited the highest ECSA (4.45 cm2) and a roughness factor (40.46). The EDX analysis confirmed that most of the SPCE surface was successfully coated with Au using all electrodeposition approaches. Furthermore, the AuDS-(-1.1V) electrode demonstrated enhanced electrochemical performance for nicotine detection compared to the unmodified SPCE, achieving a limit of detection of 0.065 µM. These findings highlight the potential of the AuDS-(-1.1V) modified SPCE as a promising electrode that could be potentially used as sensitive and selective electrochemical sensing material for detection of nicotine. 2024 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/106827/1/106827.pdf Modification of screenprinted carbon electrode (SPCE) with gold nanostructures for electrochemical detection of nicotine / Nur Asyiqin Azman. (2024) Masters thesis, thesis, Universiti Teknologi MARA (UiTM). <http://terminalib.uitm.edu.my/106827.pdf> |
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Production from solar energy Azman, Nur Asyiqin Modification of screenprinted carbon electrode (SPCE) with gold nanostructures for electrochemical detection of nicotine / Nur Asyiqin Azman |
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The determination of nicotine, a highly addictive compound found in tobacco products, requires reliable and sensitive analytical methods. Screen-printed carbon electrodes (SPCEs) have emerged as a cost-effective and portable platform for nicotine detection. Aside, the low active surface area of the carbon electrode in SPCE poses challenges in detecting trace amounts of samples. Hence, the sensitivity and selectivity of SPCEs for nicotine detection can be improved by electrodepositing gold nanostructures on SPCE. Nonetheless, the electrochemical performance of the electrode is usually affected by the morphological structure of the gold (Au) and the major challenge in producing gold nanostructures revolves around controlling their size, shape and stability. Therefore, this study aimed to develop a modified screen-printed carbon electrode (SPCE) with gold nanostructures (AuNS) using three different electrodeposition approaches namely deposition at low overpotential by cyclic voltammogram to produce gold nanoparticles (AuNP), electrodeposition using hydrogen bubble dynamic template (at hydrogen evolution reaction) to produce gold with the dendritic network (AuDS) and dealloying of gold-copper (Au-Cu) alloy to produce nanoporous gold (NPG) electrode. The modified electrodes were evaluated for their electrocatalytic performance and stability in the electrochemical detection of nicotine. By manipulating deposition parameters such as deposition cycle for the first approach, deposition potential for the second approach, and dealloying cycle for the third approach, different surface morphologies of AuNS, including nanoparticles, nanodendrites, and nanoporous structures were obtained. The optimum conditions for electrodeposition of the AuNS electrode with the highest electrochemically active surface area (ECSA) and electrocatalytic properties were produced from the second approach by applying a constant potential at -1.1V for 15 minutes, resulting in the formation of Au dendritic networks (AuDS-(-1.1V)). The AuDS-(-1.1V) electrode exhibited the highest ECSA (4.45 cm2) and a roughness factor (40.46). The EDX analysis confirmed that most of the SPCE surface was successfully coated with Au using all electrodeposition approaches. Furthermore, the AuDS-(-1.1V) electrode demonstrated enhanced electrochemical performance for nicotine detection compared to the unmodified SPCE, achieving a limit of detection of 0.065 µM. These findings highlight the potential of the AuDS-(-1.1V) modified SPCE as a promising electrode that could be potentially used as sensitive and selective electrochemical sensing material for detection of nicotine. |
| format |
Thesis |
| author |
Azman, Nur Asyiqin |
| author_facet |
Azman, Nur Asyiqin |
| author_sort |
Azman, Nur Asyiqin |
| title |
Modification of screenprinted carbon electrode (SPCE) with gold nanostructures for electrochemical detection of nicotine / Nur Asyiqin Azman |
| title_short |
Modification of screenprinted carbon electrode (SPCE) with gold nanostructures for electrochemical detection of nicotine / Nur Asyiqin Azman |
| title_full |
Modification of screenprinted carbon electrode (SPCE) with gold nanostructures for electrochemical detection of nicotine / Nur Asyiqin Azman |
| title_fullStr |
Modification of screenprinted carbon electrode (SPCE) with gold nanostructures for electrochemical detection of nicotine / Nur Asyiqin Azman |
| title_full_unstemmed |
Modification of screenprinted carbon electrode (SPCE) with gold nanostructures for electrochemical detection of nicotine / Nur Asyiqin Azman |
| title_sort |
modification of screenprinted carbon electrode (spce) with gold nanostructures for electrochemical detection of nicotine / nur asyiqin azman |
| publishDate |
2024 |
| url |
https://ir.uitm.edu.my/id/eprint/106827/1/106827.pdf https://ir.uitm.edu.my/id/eprint/106827/ |
| _version_ |
1817847243338678272 |
| score |
13.222552 |