Conducting α-Fe₂O₃ nanorod/polyaniline/CNT gel framework for high performance anodes towards supercapacitors
Date
2018
Authors
Yang, Z.
Qiu, A.
Ma, J.
Chen, M.
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Journal article
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Composites Science And Technology, 2018; 156:231-237
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Abstract
Thick-electrode design toward high energy density per device is of particular importance for supercapacitors to store large amount of energy, but this remains a seemingly insurmountable challenge due to sluggish electron transport. The challenge is addressed herein by developing an electrically and ionically conducting framework which consists of α-Fe₂O₃ nanorods, multi-walled carbon nanotubes (CNTs) and polyaniline (PANi) hydrogel. The interconnecting composite framework is formed by in situ polymerizing aniline on the surface of α-Fe₂O₃ nanorods and CNTs; the nanorods are found to well disperse in the matrix. The framework can provide low-resistance, continuous transport pathways for both electrons and electrolyte ions in the entire electrode system, maximizing the energy use of the nanorods. An anode of ∼100 μm in thickness is fabricated using the composite framework, corresponding to a mass loading of 9.3 mg cm⁻². It delivers high area capacitance of 2434.7 mF cm ⁻² and cycling capacitance retention of 96.3% after 10,000 cycles. This work would shed light on the design of thick electrodes toward high-capacity energy storage devices.
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Copyright 2018 Elsevier