In situ determination of the potential distribution within a copper foam electrode in a zinc‐air/silver hybrid flow battery
In situ determination of the potential distribution within a copper foam electrode in a zinc‐air/silver hybrid flow battery
This work describes a novel methodology for measuring the potential distribution within the porous copper foam electrode of a zinc-air/silver hybrid (ZASH) flow battery by using local potential probes. The suitability of dynamic hydrogen electrodes (DHEs) and a quasi-reference electrode as probes is evaluated, with the latter chosen in view of stability. Liquid and solid-phase potentials are recorded at varying applied current densities over multiple charge-discharge cycles. Various zinc structures are found within specific overpotential ranges, with moss-like structures appearing between 7.8 mV and 13.2 mV and the desired boulder structures in the range of 22 mV to 100 mV. Regardless of the current density, the highest liquid-phase potentials are always measured in the outermost region of the porous foam near to the separator. In practice, this means that increasing the thickness of the copper foam over about 5 mm does not provide significant performance benefits. Conversely, solid-phase potentials across the copper foam remain nearly uniform, resulting in negligible effects on local overpotential. The presented technique provides unique insights into the behavior of porous electrodes in electrochemical energy conversion technologies, facilitating the determination of the optimal properties for maximum efficiency, such as electrode thickness.
Genthe, Sascha
1534e1b6-fed1-4725-a38d-417cc5e132e2
Arenas, Luis F.
6e7e3d10-2aab-4fc3-a6d4-63a6614d0403
Becker, Maik
2969452a-6daa-4c02-b5e6-95b07f11cb36
Kunz, Ulrich
135f6bad-6d85-4d1c-90a9-55a1a2da995f
Turek, Thomas
bb838761-36b5-47d2-aacd-08f1b9db38f3
3 June 2024
Genthe, Sascha
1534e1b6-fed1-4725-a38d-417cc5e132e2
Arenas, Luis F.
6e7e3d10-2aab-4fc3-a6d4-63a6614d0403
Becker, Maik
2969452a-6daa-4c02-b5e6-95b07f11cb36
Kunz, Ulrich
135f6bad-6d85-4d1c-90a9-55a1a2da995f
Turek, Thomas
bb838761-36b5-47d2-aacd-08f1b9db38f3
Genthe, Sascha, Arenas, Luis F., Becker, Maik, Kunz, Ulrich and Turek, Thomas
(2024)
In situ determination of the potential distribution within a copper foam electrode in a zinc‐air/silver hybrid flow battery.
ChemElectroChem, 11 (11), [e202400062].
(doi:10.1002/celc.202400062).
Abstract
This work describes a novel methodology for measuring the potential distribution within the porous copper foam electrode of a zinc-air/silver hybrid (ZASH) flow battery by using local potential probes. The suitability of dynamic hydrogen electrodes (DHEs) and a quasi-reference electrode as probes is evaluated, with the latter chosen in view of stability. Liquid and solid-phase potentials are recorded at varying applied current densities over multiple charge-discharge cycles. Various zinc structures are found within specific overpotential ranges, with moss-like structures appearing between 7.8 mV and 13.2 mV and the desired boulder structures in the range of 22 mV to 100 mV. Regardless of the current density, the highest liquid-phase potentials are always measured in the outermost region of the porous foam near to the separator. In practice, this means that increasing the thickness of the copper foam over about 5 mm does not provide significant performance benefits. Conversely, solid-phase potentials across the copper foam remain nearly uniform, resulting in negligible effects on local overpotential. The presented technique provides unique insights into the behavior of porous electrodes in electrochemical energy conversion technologies, facilitating the determination of the optimal properties for maximum efficiency, such as electrode thickness.
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Published date: 3 June 2024
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Local EPrints ID: 501987
URI: http://eprints.soton.ac.uk/id/eprint/501987
ISSN: 2196-0216
PURE UUID: aa1412c1-9775-47de-9be4-8b8141889896
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Date deposited: 12 Jun 2025 17:23
Last modified: 13 Jun 2025 01:55
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Author:
Sascha Genthe
Author:
Maik Becker
Author:
Ulrich Kunz
Author:
Thomas Turek
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