Comparison of the influence of oxygen groups introduced by graphene oxide on the activity of carbon felt in vanadium and anthraquinone flow batteries
Comparison of the influence of oxygen groups introduced by graphene oxide on the activity of carbon felt in vanadium and anthraquinone flow batteries
An increasing number of studies focus on organic flow batteries (OFBs) as possible substitutes for the vanadium flow battery (VFB), featuring anthraquinone derivatives, such as anthraquinone-2,7-disulfonic acid (2,7-AQDS). VFBs have been postulated as a promising energy storage technology. However, the fluctuating cost of vanadium minerals and risky supply chains have hampered their implementation, while OFBs could be prepared from renewable raw materials. A critical component of flow batteries is the electrode material, which can determine the power density and energy efficiency. Yet, and in contrast to VFBs, studies on electrodes tailored for OFBs are scarce. Hence, in this work, we propose the modification of commercial carbon felts with reduced graphene oxide (rGO) and poly(ethylene glycol) for the 2,7-AQDS redox couple and to preliminarily assess its effects on the efficiency of a 2,7-AQDS/ferrocyanide flow battery. Results are compared to those of a VFB to evaluate if the benefits of the modification are transferable to OFBs. The modification of carbon felts with surface oxygen groups introduced by the presence of rGO enhanced both its hydrophilicity and surface area, favoring the catalytic activity toward VFB and OFB reactions. The results are promising, given the improved behavior of the modified electrodes. Parallels are established between the electrodes of both FB technologies.
2779–2790
Molina-Serrano, Antonio J.
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Luque-Centeno, José M.
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Sebastián, David
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Arenas, Luis F.
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Turek, Thomas
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Vela, Irene
fcaf3386-4dc9-4798-a331-86cb05f35df3
Carrasco-Marín, Francisco
e044a21e-20d7-4982-8ad7-5497226b6f67
Lázaro, María J.
0cb2a0ba-8874-4593-91ab-d0826d16b86f
Alegre, Cinthia
288f963e-61f3-468f-a1e5-dd7ce0fab181
8 April 2024
Molina-Serrano, Antonio J.
a75befe3-bd64-43b3-8ac8-98f6950d62c2
Luque-Centeno, José M.
20f407f0-e680-4791-8953-993eb7141807
Sebastián, David
7b2d54dd-84fb-48ed-a529-8cb236dfaef6
Arenas, Luis F.
6e7e3d10-2aab-4fc3-a6d4-63a6614d0403
Turek, Thomas
bb838761-36b5-47d2-aacd-08f1b9db38f3
Vela, Irene
fcaf3386-4dc9-4798-a331-86cb05f35df3
Carrasco-Marín, Francisco
e044a21e-20d7-4982-8ad7-5497226b6f67
Lázaro, María J.
0cb2a0ba-8874-4593-91ab-d0826d16b86f
Alegre, Cinthia
288f963e-61f3-468f-a1e5-dd7ce0fab181
Molina-Serrano, Antonio J., Luque-Centeno, José M., Sebastián, David, Arenas, Luis F., Turek, Thomas, Vela, Irene, Carrasco-Marín, Francisco, Lázaro, María J. and Alegre, Cinthia
(2024)
Comparison of the influence of oxygen groups introduced by graphene oxide on the activity of carbon felt in vanadium and anthraquinone flow batteries.
ACS Applied Energy Materials, 7 (7), .
(doi:10.1021/acsaem.3c03223).
Abstract
An increasing number of studies focus on organic flow batteries (OFBs) as possible substitutes for the vanadium flow battery (VFB), featuring anthraquinone derivatives, such as anthraquinone-2,7-disulfonic acid (2,7-AQDS). VFBs have been postulated as a promising energy storage technology. However, the fluctuating cost of vanadium minerals and risky supply chains have hampered their implementation, while OFBs could be prepared from renewable raw materials. A critical component of flow batteries is the electrode material, which can determine the power density and energy efficiency. Yet, and in contrast to VFBs, studies on electrodes tailored for OFBs are scarce. Hence, in this work, we propose the modification of commercial carbon felts with reduced graphene oxide (rGO) and poly(ethylene glycol) for the 2,7-AQDS redox couple and to preliminarily assess its effects on the efficiency of a 2,7-AQDS/ferrocyanide flow battery. Results are compared to those of a VFB to evaluate if the benefits of the modification are transferable to OFBs. The modification of carbon felts with surface oxygen groups introduced by the presence of rGO enhanced both its hydrophilicity and surface area, favoring the catalytic activity toward VFB and OFB reactions. The results are promising, given the improved behavior of the modified electrodes. Parallels are established between the electrodes of both FB technologies.
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Accepted/In Press date: 17 March 2024
Published date: 8 April 2024
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Local EPrints ID: 501982
URI: http://eprints.soton.ac.uk/id/eprint/501982
ISSN: 2574-0962
PURE UUID: 75c798e5-be95-4878-97f8-41951a91570b
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Date deposited: 12 Jun 2025 17:22
Last modified: 14 Jun 2025 02:02
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Author:
Antonio J. Molina-Serrano
Author:
José M. Luque-Centeno
Author:
David Sebastián
Author:
Thomas Turek
Author:
Irene Vela
Author:
Francisco Carrasco-Marín
Author:
María J. Lázaro
Author:
Cinthia Alegre
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