Abstract

Ferroferric oxide (Fe3O4) nanospheres have been synthesized via a facile solvothermal procedure to serve as an electrode material for high performance non-enzymatic glucose sensor. The as-synthesized Fe3O4 nanospheres with a uniform size from 16 to 18 nm, which can increase the reaction contact area and the active sites in the process of glucose detection. Benefiting from the particular nanoscale structure, the Fe3O4 nanospheres obviously enhanced the activity of electrocatalytic oxidation towards glucose. When the Fe3O4 nanospheres material was used for non-enzymatic glucose sensor, several electrochemical properties including the high sensitivity 6560 μA mM−1 cm−2 (0.1–1.1 mM), limit of detection 33 μM (S/N = 3) and good long-term stability were well demonstrated. Furthermore, Fe3O4 nanospheres electrode confirmed the excellent performance of selectivity in glucose detection with the interfering substances existed such as urea, citric acid, ascorbic acid, and NaCl. Due to the excellent electrocatalytic activity in alkaline solution, the Fe3O4 nanospheres material can be considered as a promising candidate in blood glucose monitoring.

Highlights

  • Ferroferric oxide (­ Fe3O4) nanospheres have been synthesized via a facile solvothermal procedure to serve as an electrode material for high performance non-enzymatic glucose sensor

  • The synthesis of ­Fe3O4 nanospheres was carried out in a solvothermal procedure and the as-synthesized ­Fe3O4 nanospheres electrode was acted as a working electrode in three-electrode system for glucose detection

  • The as-synthesized F­ e3O4 nanospheres samples were pasted on Ni foam for electrochemical detecting

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Summary

Introduction

Ferroferric oxide (­ Fe3O4) nanospheres have been synthesized via a facile solvothermal procedure to serve as an electrode material for high performance non-enzymatic glucose sensor. A facile process to synthesize F­ e3O4 nanomaterials as the material of electrochemical non-enzymatic glucose sensor has become essential. A high-performance electrochemical non-enzymatic glucose sensor has been presented.

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Conclusion

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