Glucose oxidase-loaded amorphous FeNi–Pt fan-shaped nanostructures and their electrochemical behaviors

• Amorphous FeNi–Pt fan-shaped nanostructure was synthesized through classical hydrothermal method.
• The as-synthesized nanoalloy loaded with GOD was used as electrode material.
• The electrode materials exhibited an excellent catalytic activity for GOD.

Glucose oxidase (GOD) loaded amorphous FeNi–Pt fan-shaped nanostructures with the average length of ∼7 μm have been synthesized for improving the electrochemical activity of enzyme electrode materials. The electrochemical oxidation of glucose solution has been successfully facilitated using FeNi–Pt fan-shaped nanostructures to load GOD due to their fan-shaped constitution and amorphous nanostructure. Chitosan could provide better response of nanostructure electrode than nafion. Compared with glassy carbon electrode (GCE) modified by chitosan/Fe40Ni40–Pt20/GOD/GCE (GOD-loaded Fe40Ni40–Pt20 nanoalloys using chitosan as immobilization-agent), chitosan/Fe45Ni45–Pt10/GOD/GCE presents smaller oxidation and reduction peak potential separation at 0.2912 V. No any electrochemical response can be observed when FeNi–Pt was absent in this electrode system. Additionally, a group of parallel experiments were tested when chitosan was changed to nafion. When Fe40Ni40–Pt20 nanostructure was employed to the electrode system, the oxidation and reduction peaks potentials were −0.7341 V and −0.4943 V, respectively, with a peak potential separation of 0.3371 V.

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