A rechargeable zinc-air battery based on zinc peroxide chemistry
Sun, Wei; Wang, Fei; Zhang, Bao; Zhang, Mengyi; Küpers, Verena; Ji, Xiao; Theile, Claudia; Bieker, Peter; Xu, Kang; Wang, Chunsheng; Winter, Martin
Research article (journal) | Peer reviewedAbstract
Rechargeable alkaline zinc-air batteries promise high energy density and safety but suffer from the sluggish 4 electron (e−)/oxygen (O2) chemistry that requires participation of water and from the electrochemical irreversibility originating from parasitic reactions caused by caustic electrolytes and atmospheric carbon dioxide. Here, we report a zinc-O2/zinc peroxide (ZnO2) chemistry that proceeds through a 2e−/O2 process in nonalkaline aqueous electrolytes, which enables highly reversible redox reactions in zinc-air batteries. This ZnO2 chemistry was made possible by a water-poor and zinc ion (Zn2+)–rich inner Helmholtz layer on the air cathode caused by the hydrophobic trifluoromethanesulfonate anions. The nonalkaline zinc-air battery thus constructed not only tolerates stable operations in ambient air but also exhibits substantially better reversibility than its alkaline counterpart.
Details about the publication
Authors from the University of Münster
| Bieker, Peter Maria | Münster Electrochemical Energy Technology Battery Research Center (MEET) |
| Küpers, Verena | Münster Electrochemical Energy Technology Battery Research Center (MEET) |
| Sun, Wei | Münster Electrochemical Energy Technology Battery Research Center (MEET) |
| Theile, Claudia | Münster Electrochemical Energy Technology Battery Research Center (MEET) |
| Winter, Martin | Münster Electrochemical Energy Technology Battery Research Center (MEET) |
| Zhang, Mengyi | Münster Electrochemical Energy Technology Battery Research Center (MEET) |