Enabling Al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase
Elemental aluminum is an exciting battery anode material due to its high abundance and volumetric capacity (8040 mAh cm−3). However, it tends to form a stubborn surface oxide layer that blocks ion transport through the electrode–electrolyte interphase and stops battery cyclability. To circumvent thi...
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sg-ntu-dr.10356-1563292022-04-23T20:11:15Z Enabling Al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase Kumar, Sonal Salim, Teddy Verma, Vivek Manalastas, William, Jr. Srinivasan, Madhavi School of Materials Science and Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Materials Al-Ion Battery Aqueous Electrolyte Elemental aluminum is an exciting battery anode material due to its high abundance and volumetric capacity (8040 mAh cm−3). However, it tends to form a stubborn surface oxide layer that blocks ion transport through the electrode–electrolyte interphase and stops battery cyclability. To circumvent this problem, here we engineer an artificial protective barrier layer on metallic Al by using AlCl3 + urea and AlCl3 + triethylamine hydrochloride eutectic coating formulations. We find both coatings provide significantly facile ion migration kinetics at the anode/electrolyte interface, enabling a drastic reduction in anodic electroplating/stripping overpotentials, but AlCl3 + urea is superior. Using depth-profiling XPS spectroscopy and impedance studies, we find that the AlCl3 + urea derived artificial interphase is also stable in ambient air, affording extended protection for metallic Al anodes from air-oxidation in the form of a battery electrode SEI. We demo the eutectic-treated Al anode (UTAl) based on a FeHCF | 2 m AlTFS | UTAl full cell chemistry and obtain a stable battery performance of ∼ 60 Wh kg−1 over 100 cycles. Our study promotes the strategic viability of using facile, inexpensive reagent treatments to enable the application of water-based electrolytes for rechargeable Al-ion batteries, and specifically encourages systematic exploration of analogue coating formulations using our anode enhancement protocol for similar high-capacity metal/alloy battery chemistries. National Research Foundation (NRF) Submitted/Accepted version This work was financially supported by the National Research Foundation of Singapore (NRF) Investigatorship Award Number NRF-NRFI2017-08. 2022-04-16T08:44:07Z 2022-04-16T08:44:07Z 2022 Journal Article Kumar, S., Salim, T., Verma, V., Manalastas, W. J. & Srinivasan, M. (2022). Enabling Al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase. Chemical Engineering Journal, 435(Part 1), 134742-. https://dx.doi.org/10.1016/j.cej.2022.134742 1385-8947 https://hdl.handle.net/10356/156329 10.1016/j.cej.2022.134742 Part 1 435 134742 en NRF-NRFI2017-08 Chemical Engineering Journal © 2022 Elsevier B.V. All rights reserved. This paper was published in Chemical Engineering Journal and is made available with permission of Elsevier B.V. application/pdf |
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Engineering::Materials Al-Ion Battery Aqueous Electrolyte Kumar, Sonal Salim, Teddy Verma, Vivek Manalastas, William, Jr. Srinivasan, Madhavi Enabling Al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase |
| description |
Elemental aluminum is an exciting battery anode material due to its high abundance and volumetric capacity (8040 mAh cm−3). However, it tends to form a stubborn surface oxide layer that blocks ion transport through the electrode–electrolyte interphase and stops battery cyclability. To circumvent this problem, here we engineer an artificial protective barrier layer on metallic Al by using AlCl3 + urea and AlCl3 + triethylamine hydrochloride eutectic coating formulations. We find both coatings provide significantly facile ion migration kinetics at the anode/electrolyte interface, enabling a drastic reduction in anodic electroplating/stripping overpotentials, but AlCl3 + urea is superior. Using depth-profiling XPS spectroscopy and impedance studies, we find that the AlCl3 + urea derived artificial interphase is also stable in ambient air, affording extended protection for metallic Al anodes from air-oxidation in the form of a battery electrode SEI. We demo the eutectic-treated Al anode (UTAl) based on a FeHCF | 2 m AlTFS | UTAl full cell chemistry and obtain a stable battery performance of ∼ 60 Wh kg−1 over 100 cycles. Our study promotes the strategic viability of using facile, inexpensive reagent treatments to enable the application of water-based electrolytes for rechargeable Al-ion batteries, and specifically encourages systematic exploration of analogue coating formulations using our anode enhancement protocol for similar high-capacity metal/alloy battery chemistries. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Kumar, Sonal Salim, Teddy Verma, Vivek Manalastas, William, Jr. Srinivasan, Madhavi |
| format |
Article |
| author |
Kumar, Sonal Salim, Teddy Verma, Vivek Manalastas, William, Jr. Srinivasan, Madhavi |
| author_sort |
Kumar, Sonal |
| title |
Enabling Al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase |
| title_short |
Enabling Al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase |
| title_full |
Enabling Al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase |
| title_fullStr |
Enabling Al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase |
| title_full_unstemmed |
Enabling Al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase |
| title_sort |
enabling al-metal anodes for aqueous electrochemical cells by using low-cost eutectic mixtures as artificial protective interphase |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/156329 |
| _version_ |
1731235760803151872 |