Chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries
Rechargeable zinc-ion batteries (RZIBs) are mostly powered by aqueous electrolytes. However, uncontrolled water interactions often confer a small voltage window and poor battery capacity retention. Here, we explore replacing water with ethylene glycol as the primary solvent in zinc electrolyte formu...
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sg-ntu-dr.10356-1475502023-07-14T16:01:50Z Chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries Verma, Vivek Chan, R. Moesha Yang, Li Jia Kumar, Sonal Sattayaporn, Suchinda Chua, Rodney Cai, Yi Kidkhunthod, Pinit Manalastas, William, Jr. Srinivasan, Madhavi School of Materials Science and Engineering Synchrotron Light Research Institute (Public Organization), Nakhon Ratchasima 30000, Thailand Energy Research Institute @ NTU (ERI@N) Engineering::Materials Electrolyte Coordination Complex Rechargeable zinc-ion batteries (RZIBs) are mostly powered by aqueous electrolytes. However, uncontrolled water interactions often confer a small voltage window and poor battery capacity retention. Here, we explore replacing water with ethylene glycol as the primary solvent in zinc electrolyte formulations. The assembled batteries reveal suppressed electrolyte-induced parasitic reactions, leading to (1) expanded voltage stability windows up to 2.2 V, (2) prolonged zinc stripping/plating stability up to 2.4 times longer compared to the water-based counterparts, and (3) doubled cathode capacity retentions as observed in full-cell Zn-FeVO4 RZIBs. Using a combination of synchrotron EXAFS and FTIR, we investigate the molecular level salt-solvent interactions and explain how the chelation ability of EG ligands reduces parasitic reactions to enable the enhanced electrochemical performances. The structural insights should provide guidelines on the selection of salt, concentration, and chelating solvents for robust multivalent-ion battery systems. National Research Foundation (NRF) Accepted version This work was funded by the National Research Foundation of Singapore Investigatorship Award Number NRFI2017-08 2021-04-16T05:12:08Z 2021-04-16T05:12:08Z 2021 Journal Article Verma, V., Chan, R. M., Yang, L. J., Kumar, S., Sattayaporn, S., Chua, R., Cai, Y., Kidkhunthod, P., Manalastas, W. J. & Srinivasan, M. (2021). Chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries. Chemistry of Materials, 33(4), 1330-1340. https://dx.doi.org/10.1021/acs.chemmater.0c04358 1520-5002 0000-0002-4890-2826 0000-0002-7104-5906 0000-0001-9917-8922 0000-0002-1595-7716 0000-0002-2364-0604 0000-0002-5497-3428 https://hdl.handle.net/10356/147550 10.1021/acs.chemmater.0c04358 2-s2.0-85100999621 4 33 1330 1340 en NRFI2017-08 Chemistry of Materials This document is the Accepted Manuscript version of a Published Work that appeared in final form in Chemistry of Materials, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acs.chemmater.0c04358 application/pdf application/pdf |
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Engineering::Materials Electrolyte Coordination Complex Verma, Vivek Chan, R. Moesha Yang, Li Jia Kumar, Sonal Sattayaporn, Suchinda Chua, Rodney Cai, Yi Kidkhunthod, Pinit Manalastas, William, Jr. Srinivasan, Madhavi Chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries |
| description |
Rechargeable zinc-ion batteries (RZIBs) are mostly powered by aqueous electrolytes. However, uncontrolled water interactions often confer a small voltage window and poor battery capacity retention. Here, we explore replacing water with ethylene glycol as the primary solvent in zinc electrolyte formulations. The assembled batteries reveal suppressed electrolyte-induced parasitic reactions, leading to (1) expanded voltage stability windows up to 2.2 V, (2) prolonged zinc stripping/plating stability up to 2.4 times longer compared to the water-based counterparts, and (3) doubled cathode capacity retentions as observed in full-cell Zn-FeVO4 RZIBs. Using a combination of synchrotron EXAFS and FTIR, we investigate the molecular level salt-solvent interactions and explain how the chelation ability of EG ligands reduces parasitic reactions to enable the enhanced electrochemical performances. The structural insights should provide guidelines on the selection of salt, concentration, and chelating solvents for robust multivalent-ion battery systems. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Verma, Vivek Chan, R. Moesha Yang, Li Jia Kumar, Sonal Sattayaporn, Suchinda Chua, Rodney Cai, Yi Kidkhunthod, Pinit Manalastas, William, Jr. Srinivasan, Madhavi |
| format |
Article |
| author |
Verma, Vivek Chan, R. Moesha Yang, Li Jia Kumar, Sonal Sattayaporn, Suchinda Chua, Rodney Cai, Yi Kidkhunthod, Pinit Manalastas, William, Jr. Srinivasan, Madhavi |
| author_sort |
Verma, Vivek |
| title |
Chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries |
| title_short |
Chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries |
| title_full |
Chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries |
| title_fullStr |
Chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries |
| title_full_unstemmed |
Chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries |
| title_sort |
chelating ligands as electrolyte solvent for rechargeable zinc-ion batteries |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/147550 |
| _version_ |
1773551276431245312 |