Heterostructured SmCoO₃/rGO composite for high-energy hybrid supercapacitors
A supercapacitor is an efficient energy storage system that acts as an excellent booster to deliver high power density required for batteries and fuel cells. Recently, composite material–based supercapacitors have attracted much more interest as promising greener and more capable candidates in energ...
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sg-ntu-dr.10356-1522252021-08-05T08:37:05Z Heterostructured SmCoO₃/rGO composite for high-energy hybrid supercapacitors Isacfranklin, M. Yuvakkumar, R. Ravi, G. Hong, S. I. Velauthapillai, Dhayalan Thambidurai, Mariyappan Dang, Cuong Algarni, Tahani Saad Al-Mohaimeed, Amal M. School of Electrical and Electronic Engineering Centre for OptoElectronics and Biophotonics (OPTIMUS) The Photonics Institute Engineering::Electrical and electronic engineering Heterostructure Solvothermal A supercapacitor is an efficient energy storage system that acts as an excellent booster to deliver high power density required for batteries and fuel cells. Recently, composite material–based supercapacitors have attracted much more interest as promising greener and more capable candidates in energy-saving use. In this work, samarium cobalt oxide–decorated reduced graphene oxide (SmCoO₃/rGO) was prepared employing solvothermal route and used as reliable electrode material. The maximum specific capacity achieved was 30.80 mAh/g for 1 A/g of SmCoO₃/rGO nanocomposite with capacity retention of 86.95%@5A/g over 5000 charge discharge cycles. Better electrochemical performance of samarium and reduced graphene oxide nanostructures prevent the transfer of electrons through electrochemical active sites, creating electronic and structural diversity of electro active material. In addition, SmCoO₃/rGO/AC hybrid supercapacitor device that delivered good energy and power density of 52 W h/kg and 752 W/kg at 1 A/g was designed. 74.28% capacitive retention and 98.26% coulombic efficiency was maintained over 15,000 cycles. This work was supported by RUSA, UGC-SAP, DST-FIST, DST-PURSE grants. The authors extend their appreciation to the Researchers supporting project number (RSP-2020/247) King Saud University, Riyadh, Saudi Arabia. 2021-08-05T08:37:05Z 2021-08-05T08:37:05Z 2021 Journal Article Isacfranklin, M., Yuvakkumar, R., Ravi, G., Hong, S. I., Velauthapillai, D., Thambidurai, M., Dang, C., Algarni, T. S. & Al-Mohaimeed, A. M. (2021). Heterostructured SmCoO₃/rGO composite for high-energy hybrid supercapacitors. Carbon, 172, 613-623. https://dx.doi.org/10.1016/j.carbon.2020.10.081 0008-6223 https://hdl.handle.net/10356/152225 10.1016/j.carbon.2020.10.081 2-s2.0-85094321507 172 613 623 en Carbon © 2020 Elsevier Ltd. All rights reserved. |
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Engineering::Electrical and electronic engineering Heterostructure Solvothermal Isacfranklin, M. Yuvakkumar, R. Ravi, G. Hong, S. I. Velauthapillai, Dhayalan Thambidurai, Mariyappan Dang, Cuong Algarni, Tahani Saad Al-Mohaimeed, Amal M. Heterostructured SmCoO₃/rGO composite for high-energy hybrid supercapacitors |
| description |
A supercapacitor is an efficient energy storage system that acts as an excellent booster to deliver high power density required for batteries and fuel cells. Recently, composite material–based supercapacitors have attracted much more interest as promising greener and more capable candidates in energy-saving use. In this work, samarium cobalt oxide–decorated reduced graphene oxide (SmCoO₃/rGO) was prepared employing solvothermal route and used as reliable electrode material. The maximum specific capacity achieved was 30.80 mAh/g for 1 A/g of SmCoO₃/rGO nanocomposite with capacity retention of 86.95%@5A/g over 5000 charge discharge cycles. Better electrochemical performance of samarium and reduced graphene oxide nanostructures prevent the transfer of electrons through electrochemical active sites, creating electronic and structural diversity of electro active material. In addition, SmCoO₃/rGO/AC hybrid supercapacitor device that delivered good energy and power density of 52 W h/kg and 752 W/kg at 1 A/g was designed. 74.28% capacitive retention and 98.26% coulombic efficiency was maintained over 15,000 cycles. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Isacfranklin, M. Yuvakkumar, R. Ravi, G. Hong, S. I. Velauthapillai, Dhayalan Thambidurai, Mariyappan Dang, Cuong Algarni, Tahani Saad Al-Mohaimeed, Amal M. |
| format |
Article |
| author |
Isacfranklin, M. Yuvakkumar, R. Ravi, G. Hong, S. I. Velauthapillai, Dhayalan Thambidurai, Mariyappan Dang, Cuong Algarni, Tahani Saad Al-Mohaimeed, Amal M. |
| author_sort |
Isacfranklin, M. |
| title |
Heterostructured SmCoO₃/rGO composite for high-energy hybrid supercapacitors |
| title_short |
Heterostructured SmCoO₃/rGO composite for high-energy hybrid supercapacitors |
| title_full |
Heterostructured SmCoO₃/rGO composite for high-energy hybrid supercapacitors |
| title_fullStr |
Heterostructured SmCoO₃/rGO composite for high-energy hybrid supercapacitors |
| title_full_unstemmed |
Heterostructured SmCoO₃/rGO composite for high-energy hybrid supercapacitors |
| title_sort |
heterostructured smcoo₃/rgo composite for high-energy hybrid supercapacitors |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/152225 |
| _version_ |
1707774591945932800 |