Charge storage mechanism of α-MnO 2 in protic and aprotic ionic liquid electrolytes
In this work we have investigated the charge storage mechanism of MnO 2 electrodes in ionic liquid electrolytes. We show that by using an ionic liquid with a cation that has the ability to form hydrogen bonds with the active material (MnO 2) on the surface of the electrode, a clear faradaic contribu...
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| Published in | Journal of power sources Vol. 460 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier
2020
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| Abstract | In this work we have investigated the charge storage mechanism of MnO 2 electrodes in ionic liquid electrolytes. We show that by using an ionic liquid with a cation that has the ability to form hydrogen bonds with the active material (MnO 2) on the surface of the electrode, a clear faradaic contribution is obtained. This situation is found for ionic liquids with cations that have a low pKa, i.e. protic ionic liquids. For a protic ionic liquid, the specific capacity at low scan rate rates can be explained by a densely packed layer of cations that are in a standing geometry, with a proton directly interacting through a hydrogen bond with the surface of the active material in the electrode. In contrast, for aprotic ionic liquids there is no interaction and only a double layer contribution to the charge storage is observed. However, by adding an alkali salt to the aprotic ionic liquid, a faradaic contribution is obtained from the insertion of Li þ into the surface of the MnO 2 electrode. No effect can be observed when Li þ is added to the protic IL, suggesting that a densely packed cation layer in this case prevent Li-ions from reaching the active material surface. |
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| AbstractList | In this work we have investigated the charge storage mechanism of MnO 2 electrodes in ionic liquid electrolytes. We show that by using an ionic liquid with a cation that has the ability to form hydrogen bonds with the active material (MnO 2) on the surface of the electrode, a clear faradaic contribution is obtained. This situation is found for ionic liquids with cations that have a low pKa, i.e. protic ionic liquids. For a protic ionic liquid, the specific capacity at low scan rate rates can be explained by a densely packed layer of cations that are in a standing geometry, with a proton directly interacting through a hydrogen bond with the surface of the active material in the electrode. In contrast, for aprotic ionic liquids there is no interaction and only a double layer contribution to the charge storage is observed. However, by adding an alkali salt to the aprotic ionic liquid, a faradaic contribution is obtained from the insertion of Li þ into the surface of the MnO 2 electrode. No effect can be observed when Li þ is added to the protic IL, suggesting that a densely packed cation layer in this case prevent Li-ions from reaching the active material surface. |
| Author | Brousse, T. Le Bideau, J. Matic, A. Abdelhamid, M. Jankowski, P. Johansson, P. Lindberg, S. Jeschke, S. |
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| Keywords | MnO2 Hybrid Supercapacitor Protic Ionic liquid |
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| Snippet | In this work we have investigated the charge storage mechanism of MnO 2 electrodes in ionic liquid electrolytes. We show that by using an ionic liquid with a... |
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| Title | Charge storage mechanism of α-MnO 2 in protic and aprotic ionic liquid electrolytes |
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