A facile approach to investigate the charge storage mechanism of MOF/PANI based supercapattery devices

Supercapattery a combo of supercapacitors and batteries that embraces the features of both technologies in a single assembly. To justify this claim, a systematic approach has been employed to evaluate the performance of the combo device. In this regard a novel material is synthesized via hydrotherma...

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Bibliographic Details
Published in:Solid state ionics 2020-10, Vol.354, p.115411, Article 115411
Main Authors: Iqbal, Muhammad Zahir, Faisal, Mian Muhammad, Ali, Syeda Ramsha, Alzaid, Meshal
Format: Article
Language:English
Subjects:
Activated carbon
Asymmetric supercapacitor
Batteries
Capacitive/diffusive
Chemical synthesis
Electrochemical impedance spectroscopy
Electrode materials
Electrodes
Metal-organic frameworks
MOF
PANI
Performance evaluation
Polyanilines
Supercapattery
Superconductivity
Voltammetry
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Summary:Supercapattery a combo of supercapacitors and batteries that embraces the features of both technologies in a single assembly. To justify this claim, a systematic approach has been employed to evaluate the performance of the combo device. In this regard a novel material is synthesized via hydrothermal technique and later on physically blended with polyaniline (PANI) to boost the performance of the pristine material. This matrix material expresses excellent performance by showing a specific capacity of 154 C/g in cyclic voltammetry (CV) and 162 C/g in galvanostatic charge discharge (GCD). Furthermore, this electrode material was sandwiched with activated carbon to fabricate the supercapattery device. The supercapattery performance was evaluated through CV, GCD, and electrochemical impedance spectroscopy (EIS). This device indicates a specific capacity of 104 C/g, 23.11 Wh/kg specific energy, and 6400 W/kg of specific power. Finally, a theoretical Dunn's model was applied to eliminate the faradaic and non-faradaic contribution of the real device. It was evidenced that the device storage was not purely faradaic (diffusive) neither non-faradaic (capacitive), but it is the combination of both contribution. The capacitive and diffusive contribution was found dependent on the scan rate and was due to the time offered to the ions for interaction with the electrode material. Our study offers the development of novel metal-organic framework/polyaniline-based electrode material for supercapattery devices as well as a unique route to probe the performance of the supercapattery. •Novel metal organic framework/polyaniline for the application of energy storage.•Specific capacity of 162.5 C/g is obtained for the electrode material.•Asymmetric assembly was fabricated by coupling MOF/PANI with activated carbon.•Analysis of capacitive and diffusive contribution supercapattery.•Outstanding cyclic stability of the device.•The device delivers high specific energy of 23.2 W h/kg along with high specific power of 4480 W/kg.
ISSN:0167-2738
1872-7689
DOI:10.1016/j.ssi.2020.115411