Niobium doped triazine based covalent organic frameworks for supercapacitor applications

Covalent organic frameworks (COFs) are gaining high importance in energy storage systems due to their uniform porosity and versatile functionality. The present work deals with the fabrication of triazine-based COF through Schiff base formation. The method involves the polycondensation reaction betwe...

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Bibliographic Details
Published in:Journal of energy storage 2023-09, Vol.67, p.107561, Article 107561
Main Authors: Shanavaz, H., Prasanna, B.P., Archana, S., Prashanth, M.K., Alharthi, Fahad A., Zhou, Rui, Raghu, M.S., Jeon, Byong-Hun, Kumar, K. Yogesh
Format: Article
Language:English
Subjects:
Asymmetric supercapacitor
COFs
Device fabrication
Metal doping
Schiff base
Stability
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Summary:Covalent organic frameworks (COFs) are gaining high importance in energy storage systems due to their uniform porosity and versatile functionality. The present work deals with the fabrication of triazine-based COF through Schiff base formation. The method involves the polycondensation reaction between melamine and terephthalaldehyde. In addition, the COF was also decorated with Niobium to generate Nb@COF. The morphological, elemental mapping, X-ray photoelectron spectroscopy, C13 NMR results show the effective doping of Nb to the COF and provide insights into the nature of bond formation. The obtained experimental XRD results are in good agreement with Materials Studio simulated results. COF and Nb@COF have been used for supercapacitor applications in a three-electrode system. Enhanced specific capacitance was observed in Nb@COF (367 F g−1) compared to pure COF (244 F g−1) at a scan rate of 2 mV s−1. The superior electrochemical performance in Nb@COF could be due to the increased porosity and interlayer spacing. COF and Nb@COF exhibited good stability towards charge and discharge and managed to retain 82 and 89 % specific capacitance, respectively even at 5000 cycles. COF and Nb@COF were assembled in a coin cell and fabricated an asymmetric supercapacitor device as negative and positive electrodes, respectively. The results obtained were satisfactory and shows a specific capacitance of 87 F g−1 at a scan rate of 2 mV s−1.The good stability, specific capacitance and reliability of Nb@COF indicate its potential application in energy storage devices. [Display omitted] •Fabrication of Triazine-based COF and Nb@COF through Schiff base formation.•Computational studies to understand structure, porosity and interlayer spacing.•COF and Nb@COF used as active materials for asymmetric device fabrication. Nb@COF exhibited a higher energy density and power density.•Specific capacitance retention capacity is good even after 5000 cycles.
ISSN:2352-152X
2352-1538
DOI:10.1016/j.est.2023.107561