Porous Fe3O4/carbon composite electrode material prepared from metal-organic framework template and effect of temperature on its capacitance

• Metal organic framework was used as a template to prepare porous Fe3O4/carbon composite supercapacitor electrode materials.
• Great capacitance performance of the fabricated electrode was achieved.
• Excellent temperature variation-resistive long-term cycle stability was attained.

In this paper, we report a porous Fe3O4/carbon composite supercapacitor electrode material possessing great temperature variation-resistive long-term cycle stability. The material is prepared via a facile one-step calcination of an iron-based metal organic framework (Fe-MOF) template and composed of porous Fe3O4 nanoparticles and carbon as a result of a well-controlled incomplete annealing process of the MOF template. With this material as an electrode, a specific capacitance of 139 F g−1 at a discharging current density of 0.5 A g−1 can be achieved. More attractively, the specific capacitance is significantly increased when the working temperature is elevated from 0 to 60 °C. Furthermore, even after 4000 cycles of charge–discharge at varied temperatures, 83.3% of the capacitance of the electrode material is retained, showing excellent temperature variation-resistive long-term cycle stability of the prepared composite electrode material.

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