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Preparation and electrochemical investigation of a nano-structured material Ni2+/MgFe layered double hydroxide as a glucose biosensor
Abstract A simple and cheap biosensor was proposed based on glassy carbon electrode (GCE) modified with a nano-structured material Ni2+/MgFe layered double hydroxide (NLDH), chitosan (CHT) and glucose oxidase (GOD). The material NLDH prepared by coprecipitation and/or the fabricated biosensor GOD–NLDH–CHT–GCE was characterized by X-ray diffraction, infrared spectrum, X-ray fluorescence spectroscopy, thermogravimetric-differential thermal analysis, transmission electron microscopy, scanning electron microscopy, electrochemical impedance spectroscopy and UV–Vis spectroscopy. Optimization of experimental parameters was investigated with regard to the amount of modifier, pH and applied potential. The optimized amperometric biosensor characteristics covered 1–20mM glucose concentration with a detection limit of 0.12mM (S/N=3) and a fast response (<5s). In addition, the biosensor exhibited satisfactory reproducibility and a long-time stability, retaining 90% of its original activity after 30days.
Research highlights ► A Ni2+/MgFe layered double hydroxide (NLDH) has been synthesized by coprecipitation. ► The nano-structured material NLDH has successfully been used to immobilize GOD. ► A biosensor has been fabricated with NLDH, CHT and GOD. ► The proposed biosensor exhibits good properties in the determination of glucose.
Preparation and electrochemical investigation of a nano-structured material Ni2+/MgFe layered double hydroxide as a glucose biosensor
Abstract A simple and cheap biosensor was proposed based on glassy carbon electrode (GCE) modified with a nano-structured material Ni2+/MgFe layered double hydroxide (NLDH), chitosan (CHT) and glucose oxidase (GOD). The material NLDH prepared by coprecipitation and/or the fabricated biosensor GOD–NLDH–CHT–GCE was characterized by X-ray diffraction, infrared spectrum, X-ray fluorescence spectroscopy, thermogravimetric-differential thermal analysis, transmission electron microscopy, scanning electron microscopy, electrochemical impedance spectroscopy and UV–Vis spectroscopy. Optimization of experimental parameters was investigated with regard to the amount of modifier, pH and applied potential. The optimized amperometric biosensor characteristics covered 1–20mM glucose concentration with a detection limit of 0.12mM (S/N=3) and a fast response (<5s). In addition, the biosensor exhibited satisfactory reproducibility and a long-time stability, retaining 90% of its original activity after 30days.
Research highlights ► A Ni2+/MgFe layered double hydroxide (NLDH) has been synthesized by coprecipitation. ► The nano-structured material NLDH has successfully been used to immobilize GOD. ► A biosensor has been fabricated with NLDH, CHT and GOD. ► The proposed biosensor exhibits good properties in the determination of glucose.
Preparation and electrochemical investigation of a nano-structured material Ni2+/MgFe layered double hydroxide as a glucose biosensor
Xu, Yanhong (author) / Liu, Xiaojuan (author) / Ding, Yaping (author) / Luo, Liqiang (author) / Wang, Yulong (author) / Zhang, Ying (author) / Xu, Yinjuan (author)
Applied Clay Science ; 52 ; 322-327
2011-03-18
6 pages
Article (Journal)
Electronic Resource
English
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