Electrochemical energy storage and conversion applications of CoSn(OH)₆ materials
Supercapacitors are a boon in today's modern world. The role of a supercapacitor is important in providing electrical energy in the most efficient way for the usefulness of the society. Herein, co-precipitation technique was adapted to prepare electrodes for energy storage and water-splitting p...
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sg-ntu-dr.10356-1603352022-07-19T07:17:00Z Electrochemical energy storage and conversion applications of CoSn(OH)₆ materials Isacfranklin, M. Rani, B. Jansi Kumar, P. Senthil Yuvakkumar, R. Ravi, G. Manigandan, A. Thambidurai, Mariyappan Dang, Cuong Velauthapillai, Dhayalan School of Electrical and Electronic Engineering Centre for OptoElectronics and Biophotonics (OPTIMUS) Engineering::Electrical and electronic engineering Supercapacitor Water Splitting Supercapacitors are a boon in today's modern world. The role of a supercapacitor is important in providing electrical energy in the most efficient way for the usefulness of the society. Herein, co-precipitation technique was adapted to prepare electrodes for energy storage and water-splitting purposes. Role of ammonia at different concentrations was deliberated. Better 269 and 364 F/g capacitance was attained for best electrode from cyclic voltammetry (CV) and galvanostatic charge–discharge (GCD) curves, respectively. The capacitive and diffusion contribution of all electrodes were estimated and found to be 91.88 and 8.12 for the best sample. A better diffusion contribution of the higher-concentration ammonia sample revealed a higher specific capacitance. In this study, 91.33% capacitive retention and 90.38% columbic efficiency were calculated after 5000 cycles of charge and discharge. Further electrochemical method like linear sweep voltammetry (LSV) and chronoamperometry (CA) was explored for water-splitting applications and 367 mA/g current density with 264 mV overpotential was achieved in the LSV plot. CA test was carried out for 10 h to reveal 189 mA/g current density and delivered 74% stability. Therefore, the present study describes different technique to extend electrochemical supercapacitor and water-splitting purposes. This work was supported by UGC-SAP, DST-FIST, DST-PURSE, MHRD-RUSA grants. 2022-07-19T07:17:00Z 2022-07-19T07:17:00Z 2021 Journal Article Isacfranklin, M., Rani, B. J., Kumar, P. S., Yuvakkumar, R., Ravi, G., Manigandan, A., Thambidurai, M., Dang, C. & Velauthapillai, D. (2021). Electrochemical energy storage and conversion applications of CoSn(OH)₆ materials. International Journal of Hydrogen Energy. https://dx.doi.org/10.1016/j.ijhydene.2021.08.001 0360-3199 https://hdl.handle.net/10356/160335 10.1016/j.ijhydene.2021.08.001 2-s2.0-85114155054 en International Journal of Hydrogen Energy © 2021 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved. |
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Engineering::Electrical and electronic engineering Supercapacitor Water Splitting |
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Engineering::Electrical and electronic engineering Supercapacitor Water Splitting Isacfranklin, M. Rani, B. Jansi Kumar, P. Senthil Yuvakkumar, R. Ravi, G. Manigandan, A. Thambidurai, Mariyappan Dang, Cuong Velauthapillai, Dhayalan Electrochemical energy storage and conversion applications of CoSn(OH)₆ materials |
| description |
Supercapacitors are a boon in today's modern world. The role of a supercapacitor is important in providing electrical energy in the most efficient way for the usefulness of the society. Herein, co-precipitation technique was adapted to prepare electrodes for energy storage and water-splitting purposes. Role of ammonia at different concentrations was deliberated. Better 269 and 364 F/g capacitance was attained for best electrode from cyclic voltammetry (CV) and galvanostatic charge–discharge (GCD) curves, respectively. The capacitive and diffusion contribution of all electrodes were estimated and found to be 91.88 and 8.12 for the best sample. A better diffusion contribution of the higher-concentration ammonia sample revealed a higher specific capacitance. In this study, 91.33% capacitive retention and 90.38% columbic efficiency were calculated after 5000 cycles of charge and discharge. Further electrochemical method like linear sweep voltammetry (LSV) and chronoamperometry (CA) was explored for water-splitting applications and 367 mA/g current density with 264 mV overpotential was achieved in the LSV plot. CA test was carried out for 10 h to reveal 189 mA/g current density and delivered 74% stability. Therefore, the present study describes different technique to extend electrochemical supercapacitor and water-splitting purposes. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Isacfranklin, M. Rani, B. Jansi Kumar, P. Senthil Yuvakkumar, R. Ravi, G. Manigandan, A. Thambidurai, Mariyappan Dang, Cuong Velauthapillai, Dhayalan |
| format |
Article |
| author |
Isacfranklin, M. Rani, B. Jansi Kumar, P. Senthil Yuvakkumar, R. Ravi, G. Manigandan, A. Thambidurai, Mariyappan Dang, Cuong Velauthapillai, Dhayalan |
| author_sort |
Isacfranklin, M. |
| title |
Electrochemical energy storage and conversion applications of CoSn(OH)₆ materials |
| title_short |
Electrochemical energy storage and conversion applications of CoSn(OH)₆ materials |
| title_full |
Electrochemical energy storage and conversion applications of CoSn(OH)₆ materials |
| title_fullStr |
Electrochemical energy storage and conversion applications of CoSn(OH)₆ materials |
| title_full_unstemmed |
Electrochemical energy storage and conversion applications of CoSn(OH)₆ materials |
| title_sort |
electrochemical energy storage and conversion applications of cosn(oh)₆ materials |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160335 |
| _version_ |
1739837390366703616 |