Environmental screening of electrode materials for a rechargeable aluminum battery with an AlCl3/EMIMCl electrolyte
Environmental screening of electrode materials for a rechargeable aluminum battery with an AlCl3/EMIMCl electrolyte
Recently, rechargeable aluminum batteries have received much attention due to their low cost, easy operation, and high safety. As the research into rechargeable aluminum batteries with a room-temperature ionic liquid electrolyte is relatively new, research efforts have focused on finding suitable electrode materials. An understanding of the environmental aspects of electrode materials is essential to make informed and conscious decisions in aluminum battery development. The purpose of this study was to evaluate and compare the relative environmental performance of electrode material candidates for rechargeable aluminum batteries with an AlCl3/EMIMCl (1-ethyl-3-methylimidazolium chloride) room-temperature ionic liquid electrolyte. To this end, we used a lifecycle environmental screening framework to evaluate 12 candidate electrode materials. We found that all of the studied materials are associated with one or more drawbacks and therefore do not represent a "silver bullet" for the aluminum battery. Even so, some materials appeared more promising than others did. We also found that aluminum battery technology is likely to face some of the same environmental challenges as Li-ion technology but also offers an opportunity to avoid others. The insights provided here can aid aluminum battery development in an environmentally sustainable direction.
Al-ion battery, Anode material, Cathode material, Climate mitigation, Electrical energy storage, Electrode materials, Environmental screening, Rechargeable aluminum battery, Sustainable development
1-24
Ellingsen, Linda Ager Wick
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Holland, Alex
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Drillet, Jean Francois
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Peters, Willi
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Eckert, Martin
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Concepcion, Carlos
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Ruiz, Oscar
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Colin, Jean François
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Knipping, Etienne
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Pan, Qiaoyan
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Wills, Richard G.A.
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Majeau-Bettez, Guillaume
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Ellingsen, Linda Ager Wick
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Holland, Alex
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Drillet, Jean Francois
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Peters, Willi
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Eckert, Martin
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Concepcion, Carlos
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Ruiz, Oscar
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Colin, Jean François
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Knipping, Etienne
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Pan, Qiaoyan
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Wills, Richard G.A.
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Majeau-Bettez, Guillaume
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Ellingsen, Linda Ager Wick, Holland, Alex, Drillet, Jean Francois, Peters, Willi, Eckert, Martin, Concepcion, Carlos, Ruiz, Oscar, Colin, Jean François, Knipping, Etienne, Pan, Qiaoyan, Wills, Richard G.A. and Majeau-Bettez, Guillaume
(2018)
Environmental screening of electrode materials for a rechargeable aluminum battery with an AlCl3/EMIMCl electrolyte.
Materials, 11 (6), , [936].
(doi:10.3390/ma11060936).
Abstract
Recently, rechargeable aluminum batteries have received much attention due to their low cost, easy operation, and high safety. As the research into rechargeable aluminum batteries with a room-temperature ionic liquid electrolyte is relatively new, research efforts have focused on finding suitable electrode materials. An understanding of the environmental aspects of electrode materials is essential to make informed and conscious decisions in aluminum battery development. The purpose of this study was to evaluate and compare the relative environmental performance of electrode material candidates for rechargeable aluminum batteries with an AlCl3/EMIMCl (1-ethyl-3-methylimidazolium chloride) room-temperature ionic liquid electrolyte. To this end, we used a lifecycle environmental screening framework to evaluate 12 candidate electrode materials. We found that all of the studied materials are associated with one or more drawbacks and therefore do not represent a "silver bullet" for the aluminum battery. Even so, some materials appeared more promising than others did. We also found that aluminum battery technology is likely to face some of the same environmental challenges as Li-ion technology but also offers an opportunity to avoid others. The insights provided here can aid aluminum battery development in an environmentally sustainable direction.
Text
materials-11-00936-v2
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More information
Accepted/In Press date: 30 May 2018
e-pub ahead of print date: 1 June 2018
Keywords:
Al-ion battery, Anode material, Cathode material, Climate mitigation, Electrical energy storage, Electrode materials, Environmental screening, Rechargeable aluminum battery, Sustainable development
Identifiers
Local EPrints ID: 421680
URI: http://eprints.soton.ac.uk/id/eprint/421680
PURE UUID: d6f7162a-e114-4176-b291-12e154d337d9
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Date deposited: 21 Jun 2018 16:30
Last modified: 16 Mar 2024 03:34
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Contributors
Author:
Linda Ager Wick Ellingsen
Author:
Alex Holland
Author:
Jean Francois Drillet
Author:
Willi Peters
Author:
Martin Eckert
Author:
Carlos Concepcion
Author:
Oscar Ruiz
Author:
Jean François Colin
Author:
Etienne Knipping
Author:
Qiaoyan Pan
Author:
Guillaume Majeau-Bettez
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