A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array
Zinc‐ion batteries are under current research focus because of their uniqueness in low cost and high safety. However, it is still desirable to improve the rate performance by improving the Zn2+ (de)intercalation kinetics and long‐cycle stability by eliminating the dendrite formation problem. Herein,...
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sg-ntu-dr.10356-924432023-02-28T20:05:59Z A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array Chao, Dongliang Zhu, Rose Changrong Song, Ming Liang, Pei Zhang, Xiao Nguyen, Huy Tiep Zhao, Haofei Wang, John Wang, Rongming Zhang, Hua Fan, Hong Jin School of Materials Science & Engineering School of Physical and Mathematical Sciences DRNTU::Science::Physics Zinc Ion Battery Flexible Electrode Zinc‐ion batteries are under current research focus because of their uniqueness in low cost and high safety. However, it is still desirable to improve the rate performance by improving the Zn2+ (de)intercalation kinetics and long‐cycle stability by eliminating the dendrite formation problem. Herein, the first paradigm of a high‐rate and ultrastable flexible quasi‐solid‐state zinc‐ion battery is constructed from a novel 2D ultrathin layered zinc orthovanadate array cathode, a Zn array anode supported by a conductive porous graphene foam, and a gel electrolyte. The nanoarray structure for both electrodes assures the high rate capability and alleviates the dendrite growth. The flexible Zn‐ion battery has a depth of discharge of ≈100% for the cathode and 66% for the anode, and delivers an impressive high‐rate of 50 C (discharge in 60 s), long‐term durability of 2000 cycles at 20 C, and unprecedented energy density ≈115 Wh kg−1, together with a peak power density ≈5.1 kW kg−1 (calculation includes masses of cathode, anode, and current collectors). First principles calculations and quantitative kinetics analysis show that the high‐rate and stable properties are correlated with the 2D fast ion‐migration pathways and the introduced intercalation pseudocapacitance. 2019-06-11T06:49:59Z 2019-12-06T18:23:22Z 2019-06-11T06:49:59Z 2019-12-06T18:23:22Z 2018 Journal Article Chao, D., Zhu, R. C., Song, M., Liang, P., Zhang, X., Tiep, N. H., ... Fan, H. J. (2018). A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array. Advanced Materials, 30(32), 1803181-. doi:10.1002/adma.201803181 0935-9648 https://hdl.handle.net/10356/92443 http://hdl.handle.net/10220/48635 10.1002/adma.201803181 en Advanced Materials 10.21979/N9/8YLEB4 This is the peer reviewed version of the following article: Chao, D., Zhu, R. C., Song, M., Liang, P., Zhang, X., Nguyen, H. T., … Fan, H. J. (2018). A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array. Advanced Materials, 30(32), 1803181-, which has been published in final form at http://dx.doi.org/10.1002/adma.201803181. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. 18 p. application/pdf |
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DRNTU::Science::Physics Zinc Ion Battery Flexible Electrode Chao, Dongliang Zhu, Rose Changrong Song, Ming Liang, Pei Zhang, Xiao Nguyen, Huy Tiep Zhao, Haofei Wang, John Wang, Rongming Zhang, Hua Fan, Hong Jin A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array |
| description |
Zinc‐ion batteries are under current research focus because of their uniqueness in low cost and high safety. However, it is still desirable to improve the rate performance by improving the Zn2+ (de)intercalation kinetics and long‐cycle stability by eliminating the dendrite formation problem. Herein, the first paradigm of a high‐rate and ultrastable flexible quasi‐solid‐state zinc‐ion battery is constructed from a novel 2D ultrathin layered zinc orthovanadate array cathode, a Zn array anode supported by a conductive porous graphene foam, and a gel electrolyte. The nanoarray structure for both electrodes assures the high rate capability and alleviates the dendrite growth. The flexible Zn‐ion battery has a depth of discharge of ≈100% for the cathode and 66% for the anode, and delivers an impressive high‐rate of 50 C (discharge in 60 s), long‐term durability of 2000 cycles at 20 C, and unprecedented energy density ≈115 Wh kg−1, together with a peak power density ≈5.1 kW kg−1 (calculation includes masses of cathode, anode, and current collectors). First principles calculations and quantitative kinetics analysis show that the high‐rate and stable properties are correlated with the 2D fast ion‐migration pathways and the introduced intercalation pseudocapacitance. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Chao, Dongliang Zhu, Rose Changrong Song, Ming Liang, Pei Zhang, Xiao Nguyen, Huy Tiep Zhao, Haofei Wang, John Wang, Rongming Zhang, Hua Fan, Hong Jin |
| format |
Article |
| author |
Chao, Dongliang Zhu, Rose Changrong Song, Ming Liang, Pei Zhang, Xiao Nguyen, Huy Tiep Zhao, Haofei Wang, John Wang, Rongming Zhang, Hua Fan, Hong Jin |
| author_sort |
Chao, Dongliang |
| title |
A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array |
| title_short |
A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array |
| title_full |
A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array |
| title_fullStr |
A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array |
| title_full_unstemmed |
A high-rate and stable quasi-solid-state zinc-ion battery with novel 2D layered zinc orthovanadate array |
| title_sort |
high-rate and stable quasi-solid-state zinc-ion battery with novel 2d layered zinc orthovanadate array |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/92443 http://hdl.handle.net/10220/48635 |
| _version_ |
1759854487729602560 |