Long‐term performance of a zinc–silver/air hybrid flow battery with a bifunctional gas‐diffusion electrode at high current density
Long‐term performance of a zinc–silver/air hybrid flow battery with a bifunctional gas‐diffusion electrode at high current density
This work demonstrates an improved cell design of a zinc–silver/air hybrid flow battery with a two-electrode configuration intended to extend the cycling lifetime with high specific capacities up to 66.7 mAh cm−2 at a technically relevant current density of 50 mA cm−2. A hybrid approach combines the advantages of both zinc–air and zinc–silver batteries enabling enhanced energy efficiency while maintaining high battery capacity. A pulsed charging protocol is applied to maintain compact zinc deposits on a porous copper foam, which extends capacity compared to a planar surface. The single-cell battery is successfully operated for 216 cycles (t = 756.10 h) after an interruption after 47 cycles (t = 163.20 h), which reveals that the gas-diffusion electrode aging is the first cycling lifetime limitation. At the end of operation, an accumulation of zinc in the inlet zone of the cell sets a second-lifetime limitation driven by progressively shorter discharge associated again with the aging of the gas-diffusion electrode. Despite zincate ion depletion and the final irregular deposition, postmortem analysis shows no dendrites, only the compact zinc structure, confirming the benefits of a pulsed current. Developments within this path can further raise the technological prospects of the zinc–silver/air battery.
Genthe, Sascha
1534e1b6-fed1-4725-a38d-417cc5e132e2
Arenas, Luis F.
6e7e3d10-2aab-4fc3-a6d4-63a6614d0403
Kunz, Ulrich
135f6bad-6d85-4d1c-90a9-55a1a2da995f
Turek, Thomas
bb838761-36b5-47d2-aacd-08f1b9db38f3
6 July 2023
Genthe, Sascha
1534e1b6-fed1-4725-a38d-417cc5e132e2
Arenas, Luis F.
6e7e3d10-2aab-4fc3-a6d4-63a6614d0403
Kunz, Ulrich
135f6bad-6d85-4d1c-90a9-55a1a2da995f
Turek, Thomas
bb838761-36b5-47d2-aacd-08f1b9db38f3
Genthe, Sascha, Arenas, Luis F., Kunz, Ulrich and Turek, Thomas
(2023)
Long‐term performance of a zinc–silver/air hybrid flow battery with a bifunctional gas‐diffusion electrode at high current density.
Energy Technology, 11 (9), [2300552].
(doi:10.1002/ente.202300552).
Abstract
This work demonstrates an improved cell design of a zinc–silver/air hybrid flow battery with a two-electrode configuration intended to extend the cycling lifetime with high specific capacities up to 66.7 mAh cm−2 at a technically relevant current density of 50 mA cm−2. A hybrid approach combines the advantages of both zinc–air and zinc–silver batteries enabling enhanced energy efficiency while maintaining high battery capacity. A pulsed charging protocol is applied to maintain compact zinc deposits on a porous copper foam, which extends capacity compared to a planar surface. The single-cell battery is successfully operated for 216 cycles (t = 756.10 h) after an interruption after 47 cycles (t = 163.20 h), which reveals that the gas-diffusion electrode aging is the first cycling lifetime limitation. At the end of operation, an accumulation of zinc in the inlet zone of the cell sets a second-lifetime limitation driven by progressively shorter discharge associated again with the aging of the gas-diffusion electrode. Despite zincate ion depletion and the final irregular deposition, postmortem analysis shows no dendrites, only the compact zinc structure, confirming the benefits of a pulsed current. Developments within this path can further raise the technological prospects of the zinc–silver/air battery.
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Energy Tech - 2023 - Genthe - Long‐Term Performance of a Zinc Silver Air Hybrid Flow Battery with a Bifunctional (2)
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e-pub ahead of print date: 28 June 2023
Published date: 6 July 2023
Identifiers
Local EPrints ID: 501985
URI: http://eprints.soton.ac.uk/id/eprint/501985
ISSN: 2194-4288
PURE UUID: 5903af94-1b16-4159-a08a-8a32ebde220c
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Date deposited: 12 Jun 2025 17:23
Last modified: 22 Aug 2025 02:21
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Author:
Sascha Genthe
Author:
Ulrich Kunz
Author:
Thomas Turek
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