Eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood
The design and development of eco-friendly fabrication of cost-effective electrochemical nonenzymatic biosensors with enhanced sensitivity and selectivity are one of the emerging area in nanomaterial and analytical chemistry. In this aspect, we developed a facile fabrication of tertiary nanocomposit...
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2023
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my.utm.1069022024-08-01T05:50:39Z http://eprints.utm.my/106902/ Eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood Elancheziyan, Mari Prakasham, Karthikeyan Eswaran, Muthusankar Duraisamy, Murugesan Ganesan, Sivarasan Lee, Siew Ling Ponnusamy, Vinoth Kumar QD Chemistry The design and development of eco-friendly fabrication of cost-effective electrochemical nonenzymatic biosensors with enhanced sensitivity and selectivity are one of the emerging area in nanomaterial and analytical chemistry. In this aspect, we developed a facile fabrication of tertiary nanocomposite material based on cobalt and polymelamine/nitrogen-doped graphitic porous carbon nanohybrid composite (Co-PM-NDGPC/SPE) for the application as a nonenzymatic electrochemical sensor to quantify glucose in human blood samples. Co-PM-NDGPC/SPE nanocomposite electrode fabrication was achieved using a single-step electrodeposition method under cyclic voltammetry (CV) technique under 1 M NH4Cl solution at 20 constitutive CV cycles (sweep rate 20 mV/s). Notably, the fabricated nonenzymatic electroactive nanocomposite material exhibited excellent electrocatalytic sensing towards the quantification of glucose in 0.1 M NaOH over a wide concentration range from 0.03 to 1.071 mM with a sensitive limit of detection 7.8 µM. Moreover, the Co-PM-NDGPC nanocomposite electrode with low charge transfer resistance (Rct~81 O) and high ionic diffusion indicates excellent stability, reproducibility, and high sensitivity. The fabricated nanocomposite materials exhibit a commendable sensing response toward glucose molecules present in the blood serum samples recommends its usage in real-time applications. Academic Press Inc. 2023 Article PeerReviewed Elancheziyan, Mari and Prakasham, Karthikeyan and Eswaran, Muthusankar and Duraisamy, Murugesan and Ganesan, Sivarasan and Lee, Siew Ling and Ponnusamy, Vinoth Kumar (2023) Eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood. Environmental Research, 223 (NA). NA-NA. ISSN 0013-9351 http://dx.doi.org/10.1016/j.envres.2023.115403 DOI : 10.1016/j.envres.2023.115403 |
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QD Chemistry Elancheziyan, Mari Prakasham, Karthikeyan Eswaran, Muthusankar Duraisamy, Murugesan Ganesan, Sivarasan Lee, Siew Ling Ponnusamy, Vinoth Kumar Eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood |
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The design and development of eco-friendly fabrication of cost-effective electrochemical nonenzymatic biosensors with enhanced sensitivity and selectivity are one of the emerging area in nanomaterial and analytical chemistry. In this aspect, we developed a facile fabrication of tertiary nanocomposite material based on cobalt and polymelamine/nitrogen-doped graphitic porous carbon nanohybrid composite (Co-PM-NDGPC/SPE) for the application as a nonenzymatic electrochemical sensor to quantify glucose in human blood samples. Co-PM-NDGPC/SPE nanocomposite electrode fabrication was achieved using a single-step electrodeposition method under cyclic voltammetry (CV) technique under 1 M NH4Cl solution at 20 constitutive CV cycles (sweep rate 20 mV/s). Notably, the fabricated nonenzymatic electroactive nanocomposite material exhibited excellent electrocatalytic sensing towards the quantification of glucose in 0.1 M NaOH over a wide concentration range from 0.03 to 1.071 mM with a sensitive limit of detection 7.8 µM. Moreover, the Co-PM-NDGPC nanocomposite electrode with low charge transfer resistance (Rct~81 O) and high ionic diffusion indicates excellent stability, reproducibility, and high sensitivity. The fabricated nanocomposite materials exhibit a commendable sensing response toward glucose molecules present in the blood serum samples recommends its usage in real-time applications. |
| format |
Article |
| author |
Elancheziyan, Mari Prakasham, Karthikeyan Eswaran, Muthusankar Duraisamy, Murugesan Ganesan, Sivarasan Lee, Siew Ling Ponnusamy, Vinoth Kumar |
| author_facet |
Elancheziyan, Mari Prakasham, Karthikeyan Eswaran, Muthusankar Duraisamy, Murugesan Ganesan, Sivarasan Lee, Siew Ling Ponnusamy, Vinoth Kumar |
| author_sort |
Elancheziyan, Mari |
| title |
Eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood |
| title_short |
Eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood |
| title_full |
Eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood |
| title_fullStr |
Eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood |
| title_full_unstemmed |
Eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood |
| title_sort |
eco-friendly fabrication of nonenzymatic electrochemical sensor based on cobalt/polymelamine/nitrogen-doped graphitic-porous carbon nanohybrid material for glucose monitoring in human blood |
| publisher |
Academic Press Inc. |
| publishDate |
2023 |
| url |
http://eprints.utm.my/106902/ http://dx.doi.org/10.1016/j.envres.2023.115403 |
| _version_ |
1806442424980996096 |