M. Niranjana scite author profile

An asymmetric supercapacitor (ASC) was constructed using a polythiophene/aluminium oxide (PTHA) nanocomposite as an anode electrode and charcoal as a cathode electrode. The highest specific capacitance (C sp ) of the PTHA electrode was found to be 554.03 F g À1 at a current density (CD) of 1 A g À1 and that of the charcoal electrode was 374.71 F g À1 at 1.4 A g À1 , measured using a three electrode system. The maximum C sp obtained for the assembled PTHA//charcoal asymmetric supercapacitor (ASC) was 265.14 F g À1 at 2 A g À1 . It also showed a high energy density of 42.0 W h kg À1 at a power density of 735.86 W kg À1 and capacitance retention of 94.61% even after 2000 cycles.Moreover, it is worth mentioning that the asymmetric device was used to illuminate a light emitting diode (LED) for more than 15 minutes. This PTHA//charcoal ASC also possesses stable electrochemical properties in different bending positions and hence finds a promising application in flexible, wearable and portable energy storage electronic devices.

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Structure, morphology, thermal and electrochemical studies of electrochemically synthesized polyaniline/copper oxide nanocomposite for energy storage devices

Ashokkumar

Yesappa

Vijeth

et al. 2020

Mater. Res. Express

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M. Niranjana

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Electrochemically synthesized polyaniline/copper oxide nano composites: To study optical band gap and electrochemical performance for energy storage devices

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Flexible and high energy density solid-state asymmetric supercapacitor based on polythiophene nanocomposites and charcoal

Structure, morphology, thermal and electrochemical studies of electrochemically synthesized polyaniline/copper oxide nanocomposite for energy storage devices

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