Cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the CO₂ reduction reaction
In the field of renewable energy research, the development of materials for use as highly efficient supercapacitors and designing electrocatalytic materials for the reduction of CO2 to produce useful chemicals are envisaged as two important sustainable routes. However, developing stable, selective,...
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sg-ntu-dr.10356-1628762022-11-11T05:48:49Z Cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the CO₂ reduction reaction Yadav, Dharmendra Kumar Omar, Fatin Saiha Yadav, Mamta Ho, Xian Liang Tessensohn, Malcolm Eugene Ramesh, K. Ramesh, S. Webster, Richard David Ganesan, Vellaichamy School of Physical and Mathematical Sciences Science::Chemistry Multiwalled Carbon Nanotubes Supercapacitors In the field of renewable energy research, the development of materials for use as highly efficient supercapacitors and designing electrocatalytic materials for the reduction of CO2 to produce useful chemicals are envisaged as two important sustainable routes. However, developing stable, selective, and efficient materials for these purposes is a highly challenging task requiring numerous design attempts. In this work, cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes (MWCNTs-ZrO2-Co3O4) is reported as a catalyst and battery electrode material for the electrochemical reduction of CO2 and supercapacitor applications, respectively. The MWCNTs-ZrO2-Co3O4 electrode assembled for the supercapacitor shows a specific capacity of 258.9 C/g at a current density of 1.0 A/g. The MWCNTs-ZrO2-Co3O4 and activated carbon (AC) based asymmetric supercapacitor (MWCNTs-ZrO2-Co3O4//AC) displays specific energy in the range of 8.9 Wh/kg (at 837.2 W/kg) to 6.23 Wh/kg (at 1674.4 W/kg). The device, MWCNTs-ZrO2-Co3O4//AC displays high cycling stability with 97% capacity retention after 7000 cycles at a current density of 1.0 A/g. In the electrocatalytic reduction of CO2, the MWCNTs-ZrO2-Co3O4 scaffold produces selectively formic acid during the electrolysis at -1.1 V (vs. Ag/AgCl) in 0.1 M aqueous KCl solution. These results indicate that MWCNTs-ZrO2-Co3O4 can serve as a bifunctional material. DST-ASEAN program (IMRC/AISTDF/R&D/P-16/2018) is gratefully acknowledged for funding. DKY acknowledges UGC for the award of Senior Research Fellow. 2022-11-11T05:48:48Z 2022-11-11T05:48:48Z 2021 Journal Article Yadav, D. K., Omar, F. S., Yadav, M., Ho, X. L., Tessensohn, M. E., Ramesh, K., Ramesh, S., Webster, R. D. & Ganesan, V. (2021). Cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the CO₂ reduction reaction. Journal of Energy Storage, 44(Part A), 103312-. https://dx.doi.org/10.1016/j.est.2021.103312 2352-152X https://hdl.handle.net/10356/162876 10.1016/j.est.2021.103312 2-s2.0-85122795306 Part A 44 103312 en Journal of Energy Storage © 2021 Elsevier Ltd. All rights reserved. |
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Science::Chemistry Multiwalled Carbon Nanotubes Supercapacitors Yadav, Dharmendra Kumar Omar, Fatin Saiha Yadav, Mamta Ho, Xian Liang Tessensohn, Malcolm Eugene Ramesh, K. Ramesh, S. Webster, Richard David Ganesan, Vellaichamy Cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the CO₂ reduction reaction |
| description |
In the field of renewable energy research, the development of materials for use as highly efficient supercapacitors and designing electrocatalytic materials for the reduction of CO2 to produce useful chemicals are envisaged as two important sustainable routes. However, developing stable, selective, and efficient materials for these purposes is a highly challenging task requiring numerous design attempts. In this work, cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes (MWCNTs-ZrO2-Co3O4) is reported as a catalyst and battery electrode material for the electrochemical reduction of CO2 and supercapacitor applications, respectively. The MWCNTs-ZrO2-Co3O4 electrode assembled for the supercapacitor shows a specific capacity of 258.9 C/g at a current density of 1.0 A/g. The MWCNTs-ZrO2-Co3O4 and activated carbon (AC) based asymmetric supercapacitor (MWCNTs-ZrO2-Co3O4//AC) displays specific energy in the range of 8.9 Wh/kg (at 837.2 W/kg) to 6.23 Wh/kg (at 1674.4 W/kg). The device, MWCNTs-ZrO2-Co3O4//AC displays high cycling stability with 97% capacity retention after 7000 cycles at a current density of 1.0 A/g. In the electrocatalytic reduction of CO2, the MWCNTs-ZrO2-Co3O4 scaffold produces selectively formic acid during the electrolysis at -1.1 V (vs. Ag/AgCl) in 0.1 M aqueous KCl solution. These results indicate that MWCNTs-ZrO2-Co3O4 can serve as a bifunctional material. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Yadav, Dharmendra Kumar Omar, Fatin Saiha Yadav, Mamta Ho, Xian Liang Tessensohn, Malcolm Eugene Ramesh, K. Ramesh, S. Webster, Richard David Ganesan, Vellaichamy |
| format |
Article |
| author |
Yadav, Dharmendra Kumar Omar, Fatin Saiha Yadav, Mamta Ho, Xian Liang Tessensohn, Malcolm Eugene Ramesh, K. Ramesh, S. Webster, Richard David Ganesan, Vellaichamy |
| author_sort |
Yadav, Dharmendra Kumar |
| title |
Cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the CO₂ reduction reaction |
| title_short |
Cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the CO₂ reduction reaction |
| title_full |
Cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the CO₂ reduction reaction |
| title_fullStr |
Cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the CO₂ reduction reaction |
| title_full_unstemmed |
Cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the CO₂ reduction reaction |
| title_sort |
cobalt oxide decorated zirconium oxide immobilized multiwalled carbon nanotubes as scaffolds for supercapacitors and the co₂ reduction reaction |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162876 |
| _version_ |
1751548488856895488 |