Iron oxide decorated nitrogen doped carbon derived from iron MOFs and polyaniline as binder free electrode for symmetric supercapacitors
Aya A. El-Ashry, Dalia M. El-Gendy, Mina Shawky Adly, Ehab N. El Sawy, Sohier A. El-Hakam

TL;DR
This paper presents a new binder-free electrode material made from iron oxide and nitrogen-doped carbon for efficient and stable supercapacitors.
Contribution
A novel Fe3O4/nitrogen-doped carbon composite is developed using iron MOFs and polyaniline for high-performance symmetric supercapacitors.
Findings
The 20FNC@P-PANI composite achieved a specific capacitance of 633.9 F/g at 1 A/g.
The device retained 95.86% capacitance after 10,000 cycles at 10 A/g.
It delivered energy and power densities of 47.52 Wh/kg and 789.99 W/kg, respectively.
Abstract
Electrochemical supercapacitors are crucial energy storage technologies for the evolution of electric cars and the regulation/utilization of intermittent renewable resources. In his work, Fe3O4/nitrogen-doped carbon (FNC) was fabricated via an efficient, facile solvothermal synthesis of the iron-based metal-organic framework (MIL-101(Fe) and NH2-MIL-101(Fe)), followed by pyrolysis under a N2 atmosphere. The prepared FNC was mixed at different ratios with pyrolyzed polyaniline (P-PANI) to enhance the conductivity, hydrophilicity, and electrochemical performance of the fabricated electrode materials. The morphology and crystallinity of the synthesized FNC@P-PANI composites were evaluated by SEM and XRD, revealing a nanoscale architecture with good crystallinity. The electrochemical behavior of FNC, P-PANI, and FNC@P-PANI materials was studied using cyclic voltammetry (CV), galvanostatic…
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Taxonomy
TopicsSupercapacitor Materials and Fabrication · Advancements in Battery Materials · Adsorption and biosorption for pollutant removal
