Investigation of the electrochemical and thermal stability of an ionic liquid based Na 0.6 Co 0.1 Mn 0.9 O 2 /Na 2.55 V 6 O 16 sodium-ion full-cell
Electrolytes based on non-flammable and electrochemically and thermally stable ionic liquids (ILs) are rendered promising alternatives to the conventionally applied organic electrolytes for lithium as well as sodium ion batteries (SIBs). In this study the electrochemical performance and thermal stab...
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sg-ntu-dr.10356-853792021-01-08T02:30:35Z Investigation of the electrochemical and thermal stability of an ionic liquid based Na 0.6 Co 0.1 Mn 0.9 O 2 /Na 2.55 V 6 O 16 sodium-ion full-cell Do, Minh Phuong Fischer, Pauline J. Nagasubramanian, Arun Geder, Jan Kühn, Fritz E. Srinivasan, Madhavi School of Materials Science & Engineering Energy Research Institute @ NTU (ERI@N) Accelerating Rate Calorimetry Batteries Engineering::Materials Electrolytes based on non-flammable and electrochemically and thermally stable ionic liquids (ILs) are rendered promising alternatives to the conventionally applied organic electrolytes for lithium as well as sodium ion batteries (SIBs). In this study the electrochemical performance and thermal stability of a SIB full-cell containing an IL based electrolyte is evaluated and compared to a reference system employing a conventional organic electrolyte. Compatibility of the IL electrolyte with the electrode materials Na0.6Co0.1Mn0.9O2 (NMO) and Na2.55V6O16 (NVO) is assured by SIB half-cell studies. In NMO/NVO full-cells the IL electrolyte outperforms the organic electrolyte in terms of cycling stability and columbic efficiency, reaching a retention of 76% after 100 cycles. Studies at 75°C show that, in contrast to the system based on the organic electrolyte, the IL-based SIB is capable of operating at elevated temperatures. Further, for the first time the superior safety of an IL-based SIB full-cell over the organic analogue is proven using Accelerating Rate Calorimetry (ARC) underlining the benefits of the IL based electrolyte. NRF (Natl Research Foundation, S’pore) Published version 2019-07-09T07:12:31Z 2019-12-06T16:02:46Z 2019-07-09T07:12:31Z 2019-12-06T16:02:46Z 2019 Journal Article Do, M. P., Fischer, P. J., Nagasubramanian, A., Geder, J., Kühn, F. E., & Srinivasan, M. (2019). Investigation of the electrochemical and thermal stability of an ionic liquid based Na 0.6 Co 0.1 Mn 0.9 O 2 /Na 2.55 V 6 O 16 sodium-ion full-cell. Journal of The Electrochemical Society, 166(6), A944-A952. doi:10.1149/2.0261906jes 0013-4651 https://hdl.handle.net/10356/85379 http://hdl.handle.net/10220/49212 10.1149/2.0261906jes en Journal of The Electrochemical Society © The Electrochemical Society, Inc. 2019. All rights reserved. Except as provided under U.S. copyright law, this work may not be reproduced, resold, distributed, or modified without the express permission of The Electrochemical Society (ECS). The archival version of this work was published in Journal of The Electrochemical Society, 166, 6, A944-A952. 9 p. application/pdf |
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Accelerating Rate Calorimetry Batteries Engineering::Materials Do, Minh Phuong Fischer, Pauline J. Nagasubramanian, Arun Geder, Jan Kühn, Fritz E. Srinivasan, Madhavi Investigation of the electrochemical and thermal stability of an ionic liquid based Na 0.6 Co 0.1 Mn 0.9 O 2 /Na 2.55 V 6 O 16 sodium-ion full-cell |
| description |
Electrolytes based on non-flammable and electrochemically and thermally stable ionic liquids (ILs) are rendered promising alternatives to the conventionally applied organic electrolytes for lithium as well as sodium ion batteries (SIBs). In this study the electrochemical performance and thermal stability of a SIB full-cell containing an IL based electrolyte is evaluated and compared to a reference system employing a conventional organic electrolyte. Compatibility of the IL electrolyte with the electrode materials Na0.6Co0.1Mn0.9O2 (NMO) and Na2.55V6O16 (NVO) is assured by SIB half-cell studies. In NMO/NVO full-cells the IL electrolyte outperforms the organic electrolyte in terms of cycling stability and columbic efficiency, reaching a retention of 76% after 100 cycles. Studies at 75°C show that, in contrast to the system based on the organic electrolyte, the IL-based SIB is capable of operating at elevated temperatures. Further, for the first time the superior safety of an IL-based SIB full-cell over the organic analogue is proven using Accelerating Rate Calorimetry (ARC) underlining the benefits of the IL based electrolyte. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Do, Minh Phuong Fischer, Pauline J. Nagasubramanian, Arun Geder, Jan Kühn, Fritz E. Srinivasan, Madhavi |
| format |
Article |
| author |
Do, Minh Phuong Fischer, Pauline J. Nagasubramanian, Arun Geder, Jan Kühn, Fritz E. Srinivasan, Madhavi |
| author_sort |
Do, Minh Phuong |
| title |
Investigation of the electrochemical and thermal stability of an ionic liquid based Na 0.6 Co 0.1 Mn 0.9 O 2 /Na 2.55 V 6 O 16 sodium-ion full-cell |
| title_short |
Investigation of the electrochemical and thermal stability of an ionic liquid based Na 0.6 Co 0.1 Mn 0.9 O 2 /Na 2.55 V 6 O 16 sodium-ion full-cell |
| title_full |
Investigation of the electrochemical and thermal stability of an ionic liquid based Na 0.6 Co 0.1 Mn 0.9 O 2 /Na 2.55 V 6 O 16 sodium-ion full-cell |
| title_fullStr |
Investigation of the electrochemical and thermal stability of an ionic liquid based Na 0.6 Co 0.1 Mn 0.9 O 2 /Na 2.55 V 6 O 16 sodium-ion full-cell |
| title_full_unstemmed |
Investigation of the electrochemical and thermal stability of an ionic liquid based Na 0.6 Co 0.1 Mn 0.9 O 2 /Na 2.55 V 6 O 16 sodium-ion full-cell |
| title_sort |
investigation of the electrochemical and thermal stability of an ionic liquid based na 0.6 co 0.1 mn 0.9 o 2 /na 2.55 v 6 o 16 sodium-ion full-cell |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/85379 http://hdl.handle.net/10220/49212 |
| _version_ |
1688665512849965056 |