Enabling selective zinc-ion intercalation by a eutectic electrolyte for practical anodeless zinc batteries
Argonne National Laboratory · University of Waterloo · +5 more institutions
Abstract
Abstract Two major challenges hinder the advance of aqueous zinc metal batteries for sustainable stationary storage: (1) achieving predominant Zn-ion (de)intercalation at the oxide cathode by suppressing adventitious proton co-intercalation and dissolution, and (2) simultaneously overcoming Zn dendrite growth at the anode that triggers parasitic electrolyte reactions. Here, we reveal the competition between Zn 2+ vs proton intercalation chemistry of a typical oxide cathode using ex-situ/ operando techniques, and alleviate side reactions by developing a cost-effective and non-flammable hybrid eutectic electrolyte. A fully hydrated Zn 2+ solvation structure facilitates fast charge transfer at the…
Citation impact
- FWCI
- 34.52
- Percentile
- 100%
- References
- 76
Authors
8- CLChang LiCorresponding
Argonne National Laboratory, University of Waterloo
- RKRyan Kingsbury
Lawrence Berkeley National Laboratory
- ASArashdeep Singh Thind
Argonne National Laboratory, University of Illinois Chicago, University of Chicago
- ASAbhinandan Shyamsunder
Argonne National Laboratory, University of Waterloo
- TTTimothy T. Fister
Argonne National Laboratory
Topics & keywords
- Electrolyte
- Faraday efficiency
- Anode
- Cathode
- Intercalation (chemistry)
- Materials science
- Battery (electricity)
- Chemical engineering