Intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating Zn deposition for highly reversible aqueous zinc ion battery
Aqueous rechargeable zinc ion batteries are promising efficient energy storage systems due to remarkable safety and satisfactory capacity. However, zinc metal anode instability including dendrite growth and side reactions severely hinders widespread applications. Herein, zincophilic microbrushes hav...
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sg-ntu-dr.10356-1645852023-02-06T02:13:45Z Intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating Zn deposition for highly reversible aqueous zinc ion battery Huang, Tieqi Xu, Kui Jia, Ning Yang, Lan Liu, Hongtao Zhu, Jixin Yan, Qingyu School of Materials Science and Engineering Institute of Materials Research and Engineering, A*STAR Engineering::Materials Aqueous Batteries Dendrite-Free Aqueous rechargeable zinc ion batteries are promising efficient energy storage systems due to remarkable safety and satisfactory capacity. However, zinc metal anode instability including dendrite growth and side reactions severely hinders widespread applications. Herein, zincophilic microbrushes have been in situ anchored on zinc plates through simple freeze-drying and mild reduction of graphene oxide, successfully overcoming these thorny issues. By introducing suitable oxygen-containing groups, the microbrushes exhibit a good affinity for zinc ions, thereby providing sufficient depositing sites, promoting zinc plating and stripping during cycling, and suppressing side reactions. The delicate zincophilic microbrushes can not only function as protective layer to guide the deposition of zinc ions, but also act as high-speed pathways to redistribute the zinc ion flux for rapid kinetics. Consequently, the microbrushes-covered zinc anode displays long lifespan and good durability, whenever in symmetric cell or full battery tests. This work paves a feasible bridge to design advanced aqueous anodes by architecting both structures and compositions of metal coverings. Ministry of Education (MOE) This work is financially supported by the National Natural Science Foundation of China (21905133, 52174284, 52172204, and 51872139) and MOE AcRF Tier 1 grant no. 2020-T1-001-031 (Singapore). 2023-02-06T02:13:45Z 2023-02-06T02:13:45Z 2023 Journal Article Huang, T., Xu, K., Jia, N., Yang, L., Liu, H., Zhu, J. & Yan, Q. (2023). Intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating Zn deposition for highly reversible aqueous zinc ion battery. Advanced Materials, 35(5), 2205206-. https://dx.doi.org/10.1002/adma.202205206 0935-9648 https://hdl.handle.net/10356/164585 10.1002/adma.202205206 36453716 2-s2.0-85144200526 5 35 2205206 en 2020-T1-001-031 Advanced Materials © 2022 Wiley-VCH GmbH. All rights reserved. |
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Engineering::Materials Aqueous Batteries Dendrite-Free Huang, Tieqi Xu, Kui Jia, Ning Yang, Lan Liu, Hongtao Zhu, Jixin Yan, Qingyu Intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating Zn deposition for highly reversible aqueous zinc ion battery |
| description |
Aqueous rechargeable zinc ion batteries are promising efficient energy storage systems due to remarkable safety and satisfactory capacity. However, zinc metal anode instability including dendrite growth and side reactions severely hinders widespread applications. Herein, zincophilic microbrushes have been in situ anchored on zinc plates through simple freeze-drying and mild reduction of graphene oxide, successfully overcoming these thorny issues. By introducing suitable oxygen-containing groups, the microbrushes exhibit a good affinity for zinc ions, thereby providing sufficient depositing sites, promoting zinc plating and stripping during cycling, and suppressing side reactions. The delicate zincophilic microbrushes can not only function as protective layer to guide the deposition of zinc ions, but also act as high-speed pathways to redistribute the zinc ion flux for rapid kinetics. Consequently, the microbrushes-covered zinc anode displays long lifespan and good durability, whenever in symmetric cell or full battery tests. This work paves a feasible bridge to design advanced aqueous anodes by architecting both structures and compositions of metal coverings. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Huang, Tieqi Xu, Kui Jia, Ning Yang, Lan Liu, Hongtao Zhu, Jixin Yan, Qingyu |
| format |
Article |
| author |
Huang, Tieqi Xu, Kui Jia, Ning Yang, Lan Liu, Hongtao Zhu, Jixin Yan, Qingyu |
| author_sort |
Huang, Tieqi |
| title |
Intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating Zn deposition for highly reversible aqueous zinc ion battery |
| title_short |
Intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating Zn deposition for highly reversible aqueous zinc ion battery |
| title_full |
Intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating Zn deposition for highly reversible aqueous zinc ion battery |
| title_fullStr |
Intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating Zn deposition for highly reversible aqueous zinc ion battery |
| title_full_unstemmed |
Intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating Zn deposition for highly reversible aqueous zinc ion battery |
| title_sort |
intrinsic interfacial dynamic engineering of zincophilic microbrushes via regulating zn deposition for highly reversible aqueous zinc ion battery |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164585 |
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1759058762368286720 |