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A novel binary composite of CuCoNi-MOF/MoO3 with exceptional capacitance as electrode material for supercapacitors

A novel binary composite of CuCoNi-MOF/MoO3 with exceptional capacitance as electrode material for supercapacitors
A novel binary composite of CuCoNi-MOF/MoO3 with exceptional capacitance as electrode material for supercapacitors
Metal-organic framework (MOF), a new type of electrode material with a porous structure, has shown promise as a good choice for supercapacitors in the next generation of energy storage devices. These research endeavors initiated the development of a doping technique and the creation of a composite material using solvothermal synthesis. This study involves the successful synthesis of CuCo-MOF and CuCoNi-MOF by introducing Co and Ni metals into the Cu-MOF. The CuCoNi-MOF is then combined with MoO3 to form a novel binary composite known as CuCoNi-MOF/MoO3. These prepared materials are then subjected to several physiochemical and electrochemical characterization techniques. The electrochemical characteristics of the prepared samples are estimated using a three-electrode cell setup. The analysis included cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and galvanostatic charge/discharge (GCD). The examination of the CV reveals that the binary composite CuCoNi-MOF/MoO3 exhibits exceptional capacitance (937.5 Fg−1 at 5 mVs−1) in comparison to the other materials that were synthesized. Moreover, the GCD study reveals that it has a capacity of 1364.69 Fg−1 at 0.5 Ag−1. Furthermore, it retained 91.5 % of its capacity after 5000 cycles demonstrating its exceptional stability. Owing to the exceptional electrochemical properties of CuCoNi-MOF/MoO3, it is employed as the positive electrode and activated carbon (Actsingle bondC) as a negative electrode for device fabrication. The supercapattery (CuCoNi-MOF/MoO3||Act-C) showed an excellent specific capacitance of 218.83 Fg−1 at 1 Ag−1 along with an outstanding energy density of 59.57 Wh.kg−1 and power density of 704.9 W.kg−1. Moreover, the assembled supercapattery device shows remarkable stability of 95.2 % at 10 Ag−1 after 15,000 cycles.
Binary composite, Metal-organic framework, Specific capacitance, Supercapacitor
2352-152X
Fatima, Sehar
b03fcc64-5dd0-46ab-9c97-2d1b9923a1bb
Shabbir, Hassan
fd9eb9b2-9c22-4e86-8b50-47c37017e376
Sharif, Rehana
63639104-fd58-4da1-8fe0-6b348dccf764
Fahad, Hafiz Muhammad
ec4867b1-83ee-49c0-8ee8-ee3bdecd20f5
Yang, Jin
90b9bd36-5d5f-4c7c-8f4a-a43c65d7808c
Shaheen, Fozia
b0ba0d67-b08c-42b0-9cee-5d72e3b81ab5
Wahab, Rizwan
2a3bea05-2436-43d0-8f6f-947b9c3c009a
Akbar, Samina
161851df-f691-49ef-960c-c2f325c98357
Perumal, Veeradasan
f9a44a65-316a-4ccc-9781-6ca5e604ebb6
Fatima, Sehar
b03fcc64-5dd0-46ab-9c97-2d1b9923a1bb
Shabbir, Hassan
fd9eb9b2-9c22-4e86-8b50-47c37017e376
Sharif, Rehana
63639104-fd58-4da1-8fe0-6b348dccf764
Fahad, Hafiz Muhammad
ec4867b1-83ee-49c0-8ee8-ee3bdecd20f5
Yang, Jin
90b9bd36-5d5f-4c7c-8f4a-a43c65d7808c
Shaheen, Fozia
b0ba0d67-b08c-42b0-9cee-5d72e3b81ab5
Wahab, Rizwan
2a3bea05-2436-43d0-8f6f-947b9c3c009a
Akbar, Samina
161851df-f691-49ef-960c-c2f325c98357
Perumal, Veeradasan
f9a44a65-316a-4ccc-9781-6ca5e604ebb6

Fatima, Sehar, Shabbir, Hassan, Sharif, Rehana, Fahad, Hafiz Muhammad, Yang, Jin, Shaheen, Fozia, Wahab, Rizwan, Akbar, Samina and Perumal, Veeradasan (2024) A novel binary composite of CuCoNi-MOF/MoO3 with exceptional capacitance as electrode material for supercapacitors. Journal of Energy Storage, 99, [113300]. (doi:10.1016/j.est.2024.113300).

Record type: Article

Abstract

Metal-organic framework (MOF), a new type of electrode material with a porous structure, has shown promise as a good choice for supercapacitors in the next generation of energy storage devices. These research endeavors initiated the development of a doping technique and the creation of a composite material using solvothermal synthesis. This study involves the successful synthesis of CuCo-MOF and CuCoNi-MOF by introducing Co and Ni metals into the Cu-MOF. The CuCoNi-MOF is then combined with MoO3 to form a novel binary composite known as CuCoNi-MOF/MoO3. These prepared materials are then subjected to several physiochemical and electrochemical characterization techniques. The electrochemical characteristics of the prepared samples are estimated using a three-electrode cell setup. The analysis included cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and galvanostatic charge/discharge (GCD). The examination of the CV reveals that the binary composite CuCoNi-MOF/MoO3 exhibits exceptional capacitance (937.5 Fg−1 at 5 mVs−1) in comparison to the other materials that were synthesized. Moreover, the GCD study reveals that it has a capacity of 1364.69 Fg−1 at 0.5 Ag−1. Furthermore, it retained 91.5 % of its capacity after 5000 cycles demonstrating its exceptional stability. Owing to the exceptional electrochemical properties of CuCoNi-MOF/MoO3, it is employed as the positive electrode and activated carbon (Actsingle bondC) as a negative electrode for device fabrication. The supercapattery (CuCoNi-MOF/MoO3||Act-C) showed an excellent specific capacitance of 218.83 Fg−1 at 1 Ag−1 along with an outstanding energy density of 59.57 Wh.kg−1 and power density of 704.9 W.kg−1. Moreover, the assembled supercapattery device shows remarkable stability of 95.2 % at 10 Ag−1 after 15,000 cycles.

Text
EST-D-24-02104_R1_Samina Akbar - Accepted Manuscript
Restricted to Repository staff only until 17 August 2026.
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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More information

Accepted/In Press date: 9 August 2024
e-pub ahead of print date: 17 August 2024
Published date: 17 August 2024
Keywords: Binary composite, Metal-organic framework, Specific capacitance, Supercapacitor

Identifiers

Local EPrints ID: 494755
URI: http://eprints.soton.ac.uk/id/eprint/494755
DOI: doi:10.1016/j.est.2024.113300
ISSN: 2352-152X
PURE UUID: b93f90d7-ba2a-4f0d-b9fd-c6a53a32193a
ORCID for Samina Akbar: ORCID iD orcid.org/0000-0002-9456-3861

Catalogue record

Date deposited: 15 Oct 2024 16:38
Last modified: 16 Oct 2024 02:12

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Contributors

Author: Sehar Fatima
Author: Hassan Shabbir
Author: Rehana Sharif
Author: Hafiz Muhammad Fahad
Author: Jin Yang
Author: Fozia Shaheen
Author: Rizwan Wahab
Author: Samina Akbar ORCID iD
Author: Veeradasan Perumal

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