Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery
Aqueous rechargeable aluminium-ion batteries (AIBs) are promising post lithium-ion battery candidates. However, the capacity and cycling stability are limited by the cathode materials, hindering their widespread application. Herein, bronze-type vanadium dioxide (VO2–B) holey nanobelts have been desi...
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sg-ntu-dr.10356-1475572023-07-14T16:01:10Z Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery Cai, Yi Kumar, Sonal Chua, Rodney Verma, Vivek Yuan, Du Kou, Zongkui Ren, Hao Arora, Hemal Srinivasan, Madhavi School of Materials Science and Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Materials Vanadium Dioxide Nanobelts Aqueous rechargeable aluminium-ion batteries (AIBs) are promising post lithium-ion battery candidates. However, the capacity and cycling stability are limited by the cathode materials, hindering their widespread application. Herein, bronze-type vanadium dioxide (VO2–B) holey nanobelts have been designed as the cathode material to improve both the capacity and cycling stability for high-performance aqueous AIBs. Benefiting from the unique shear structure and two-dimensional holey nanobelt morphology, the VO2–B electrode delivers a superior specific capacity of up to 234 mA h g−1 at 150 mA g−1 and exhibits a high capacity retention of 77.2% over 1000 cycles at 1 A g−1, which are among the best cathode performances reported for aqueous AIBs. Moreover, a combination of electro-kinetic analysis and ex situ structural evolution characterization experiments reveals the reaction storage mechanism underlying the superior performance. Specifically, proton and Al3+ ions can reversibly co-intercalate/de-intercalate into/from VO2–B. The integration of shear structure and unique holey nanobelts may open the route to the design of high-performance cathodes for multi-valence ion batteries. National Research Foundation (NRF) Accepted version This work was financially supported by the National Research Foundation of Singapore (NRF) Investigatorship Award Number NRFI2017-08/NRF2016NRF-NRFI001-22. 2021-04-16T06:00:13Z 2021-04-16T06:00:13Z 2020 Journal Article Cai, Y., Kumar, S., Chua, R., Verma, V., Yuan, D., Kou, Z., Ren, H., Arora, H. & Srinivasan, M. (2020). Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery. Journal of Materials Chemistry A, 8(25), 12716-12722. https://dx.doi.org/10.1039/D0TA03986A 2050-7488 https://hdl.handle.net/10356/147557 10.1039/D0TA03986A 25 8 12716 12722 en NRFI2017-08/NRF2016NRF-NRFI001-22 Journal of Materials Chemistry A © 2020 The Royal Society of Chemistry. All rights reserved. This paper was published in Journal of Materials Chemistry A and is made available with permission of The Royal Society of Chemistry. application/pdf |
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Engineering::Materials Vanadium Dioxide Nanobelts Cai, Yi Kumar, Sonal Chua, Rodney Verma, Vivek Yuan, Du Kou, Zongkui Ren, Hao Arora, Hemal Srinivasan, Madhavi Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery |
| description |
Aqueous rechargeable aluminium-ion batteries (AIBs) are promising post lithium-ion battery candidates. However, the capacity and cycling stability are limited by the cathode materials, hindering their widespread application. Herein, bronze-type vanadium dioxide (VO2–B) holey nanobelts have been designed as the cathode material to improve both the capacity and cycling stability for high-performance aqueous AIBs. Benefiting from the unique shear structure and two-dimensional holey nanobelt morphology, the VO2–B electrode delivers a superior specific capacity of up to 234 mA h g−1 at 150 mA g−1 and exhibits a high capacity retention of 77.2% over 1000 cycles at 1 A g−1, which are among the best cathode performances reported for aqueous AIBs. Moreover, a combination of electro-kinetic analysis and ex situ structural evolution characterization experiments reveals the reaction storage mechanism underlying the superior performance. Specifically, proton and Al3+ ions can reversibly co-intercalate/de-intercalate into/from VO2–B. The integration of shear structure and unique holey nanobelts may open the route to the design of high-performance cathodes for multi-valence ion batteries. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Cai, Yi Kumar, Sonal Chua, Rodney Verma, Vivek Yuan, Du Kou, Zongkui Ren, Hao Arora, Hemal Srinivasan, Madhavi |
| format |
Article |
| author |
Cai, Yi Kumar, Sonal Chua, Rodney Verma, Vivek Yuan, Du Kou, Zongkui Ren, Hao Arora, Hemal Srinivasan, Madhavi |
| author_sort |
Cai, Yi |
| title |
Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery |
| title_short |
Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery |
| title_full |
Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery |
| title_fullStr |
Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery |
| title_full_unstemmed |
Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery |
| title_sort |
bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion battery |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/147557 |
| _version_ |
1773551199238225920 |