Engineered Hierarchical CuO Nanoleaves Based Electrochemical Nonenzymatic Biosensor for Glucose Detection

In this study, we synthesized hierarchical CuO nanoleaves in large-quantity via the hydrothermal method. We employed different techniques to characterize the morphological, structural, optical properties of the as-prepared hierarchical CuO nanoleaves sample. An electrochemical based nonenzymatic glu...

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Veröffentlicht in:	Journal of the Electrochemical Society 2021-01, Vol.168 (1), p.17501
Hauptverfasser:	Ahmad, Rafiq, Khan, Marya, Mishra, Prabhash, Jahan, Nushrat, Ahsan, Md. Aquib, Ahmad, Imran, Khan, Mohammad Rizwan, Watanabe, Yosuke, Syed, Mansoor Ali, Furukawa, Hidemitsu, Khosla, Ajit
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Schlagworte:	Nanoclusters Nanoscale materials Sensors
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creator	Ahmad, Rafiq Khan, Marya Mishra, Prabhash Jahan, Nushrat Ahsan, Md. Aquib Ahmad, Imran Khan, Mohammad Rizwan Watanabe, Yosuke Syed, Mansoor Ali Furukawa, Hidemitsu Khosla, Ajit
description	In this study, we synthesized hierarchical CuO nanoleaves in large-quantity via the hydrothermal method. We employed different techniques to characterize the morphological, structural, optical properties of the as-prepared hierarchical CuO nanoleaves sample. An electrochemical based nonenzymatic glucose biosensor was fabricated using engineered hierarchical CuO nanoleaves. The electrochemical behavior of fabricated biosensor towards glucose was analyzed with cyclic voltammetry (CV) and amperometry (i-t) techniques. Owing to the high electroactive surface area, hierarchical CuO nanoleaves based nonenzymatic biosensor electrode shows enhanced electrochemical catalytic behavior for glucose electro-oxidation in 100 mM sodium hydroxide (NaOH) electrolyte. The nonenzymatic biosensor displays a high sensitivity (1467.32 A/(mM cm2)), linear range (0.005-5.89 mM), and detection limit of 12 nM (S/N = 3). Moreover, biosensor displayed good selectivity, reproducibility, repeatability, and stability at room temperature over three-week storage period. Further, as-fabricated nonenzymatic glucose biosensors were employed for practical applications in human serum sample measurements. The obtained data were compared to the commercial biosensor, which demonstrates the practical usability of nonenzymatic glucose biosensors in real sample analysis.
doi_str_mv	10.1149/1945-7111/abd515
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Owing to the high electroactive surface area, hierarchical CuO nanoleaves based nonenzymatic biosensor electrode shows enhanced electrochemical catalytic behavior for glucose electro-oxidation in 100 mM sodium hydroxide (NaOH) electrolyte. The nonenzymatic biosensor displays a high sensitivity (1467.32 A/(mM cm2)), linear range (0.005-5.89 mM), and detection limit of 12 nM (S/N = 3). Moreover, biosensor displayed good selectivity, reproducibility, repeatability, and stability at room temperature over three-week storage period. Further, as-fabricated nonenzymatic glucose biosensors were employed for practical applications in human serum sample measurements. 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The electrochemical behavior of fabricated biosensor towards glucose was analyzed with cyclic voltammetry (CV) and amperometry (i-t) techniques. Owing to the high electroactive surface area, hierarchical CuO nanoleaves based nonenzymatic biosensor electrode shows enhanced electrochemical catalytic behavior for glucose electro-oxidation in 100 mM sodium hydroxide (NaOH) electrolyte. The nonenzymatic biosensor displays a high sensitivity (1467.32 A/(mM cm2)), linear range (0.005-5.89 mM), and detection limit of 12 nM (S/N = 3). Moreover, biosensor displayed good selectivity, reproducibility, repeatability, and stability at room temperature over three-week storage period. Further, as-fabricated nonenzymatic glucose biosensors were employed for practical applications in human serum sample measurements. 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title	Engineered Hierarchical CuO Nanoleaves Based Electrochemical Nonenzymatic Biosensor for Glucose Detection
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