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Development of an in situ polymerized artificial layer for dendrite‐free and stable lithium metal batteries
Junquan Lai,
Rui Tan 
,
Huai Jiang,
Xinjing Huang,
Zhongliang Tian,
Bo Hong,
Mengran Wang,
Jie Li
,
Huai Jiang,
Xinjing Huang,
Zhongliang Tian,
Bo Hong,
Mengran Wang,
Jie Li
Battery Energy, Volume: 3, Issue: 4
Swansea University Author:
Rui Tan
-
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DOI (Published version): 10.1002/bte2.20230070
Abstract
Severe lithium dendrite issues bring a significant challenge for the practical application of Li metal anodes. In this study, a scalable spray-coating method is used to in situ construct an organic/inorganic composite interfacial layer including Li-Zn alloy and lithium polyacrylate on the surface of...
| Published in: | Battery Energy |
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| ISSN: | 2768-1688 2768-1696 |
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Wiley
2024
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa67790 |
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v2 67790 2024-09-25 Development of an in situ polymerized artificial layer for dendrite‐free and stable lithium metal batteries 774c33a0a76a9152ca86a156b5ae26ff 0009-0001-9278-7327 Rui Tan Rui Tan true false 2024-09-25 EAAS Severe lithium dendrite issues bring a significant challenge for the practical application of Li metal anodes. In this study, a scalable spray-coating method is used to in situ construct an organic/inorganic composite interfacial layer including Li-Zn alloy and lithium polyacrylate on the surface of lithium metal. The Li-Zn alloy exhibits favorable lithiophilic and high Li+ diffusion coefficient, whereas highly elastic lithium polyacrylate is a Li+ conductor and provides excellent mechanical properties. Finally, the ZA-Li||ZA-Li cell shows stable cycling for over 1800 h with 1 mA cm−2 at 2 h per cycle, which demonstrates a pronounced inhibition of lithium dendrite growth. Based on the above merits, this work would open a new avenue to develop advanced artificial interfacial layer with multiple capabilities for high-performance lithium metal batteries. Journal Article Battery Energy 3 4 Wiley 2768-1688 2768-1696 alloy; interfacial layer; lithium metal anode; metallic dendrite; organic/inorganic solid interface 10 7 2024 2024-07-10 10.1002/bte2.20230070 Rapid Communication COLLEGE NANME Engineering and Applied Sciences School COLLEGE CODE EAAS Swansea University Another institution paid the OA fee Warwick Manufacturing Group at the University of Warwick National Natural Science Foundation of China. Grant Number: 52034011 RSC Researcher Collaborations Grant. Grant Number: C23-8220221815 2024-10-18T13:21:42.5812843 2024-09-25T21:17:12.1415844 Faculty of Science and Engineering School of Engineering and Applied Sciences - Chemical Engineering Junquan Lai 1 Rui Tan 0009-0001-9278-7327 2 Huai Jiang 3 Xinjing Huang 4 Zhongliang Tian 5 Bo Hong 6 Mengran Wang 7 Jie Li 8 67790__32642__870e2a6bbb4e442b95053db6303a256b.pdf 67790.VoR.pdf 2024-10-18T13:18:46.8028985 Output 2007271 application/pdf Version of Record true © 2024 The Authors. This is an open access article under the terms of the Creative Commons Attribution License. true eng http://creativecommons.org/licenses/by/4.0/ |
| title |
Development of an in situ polymerized artificial layer for dendrite‐free and stable lithium metal batteries |
| spellingShingle |
Development of an in situ polymerized artificial layer for dendrite‐free and stable lithium metal batteries Rui Tan |
| title_short |
Development of an in situ polymerized artificial layer for dendrite‐free and stable lithium metal batteries |
| title_full |
Development of an in situ polymerized artificial layer for dendrite‐free and stable lithium metal batteries |
| title_fullStr |
Development of an in situ polymerized artificial layer for dendrite‐free and stable lithium metal batteries |
| title_full_unstemmed |
Development of an in situ polymerized artificial layer for dendrite‐free and stable lithium metal batteries |
| title_sort |
Development of an in situ polymerized artificial layer for dendrite‐free and stable lithium metal batteries |
| author_id_str_mv |
774c33a0a76a9152ca86a156b5ae26ff |
| author_id_fullname_str_mv |
774c33a0a76a9152ca86a156b5ae26ff_***_Rui Tan |
| author |
Rui Tan |
| author2 |
Junquan Lai Rui Tan Huai Jiang Xinjing Huang Zhongliang Tian Bo Hong Mengran Wang Jie Li |
| format |
Journal article |
| container_title |
Battery Energy |
| container_volume |
3 |
| container_issue |
4 |
| publishDate |
2024 |
| institution |
Swansea University |
| issn |
2768-1688 2768-1696 |
| doi_str_mv |
10.1002/bte2.20230070 |
| publisher |
Wiley |
| college_str |
Faculty of Science and Engineering |
| hierarchytype |
|
| hierarchy_top_id |
facultyofscienceandengineering |
| hierarchy_top_title |
Faculty of Science and Engineering |
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facultyofscienceandengineering |
| hierarchy_parent_title |
Faculty of Science and Engineering |
| department_str |
School of Engineering and Applied Sciences - Chemical Engineering{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Engineering and Applied Sciences - Chemical Engineering |
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1 |
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| description |
Severe lithium dendrite issues bring a significant challenge for the practical application of Li metal anodes. In this study, a scalable spray-coating method is used to in situ construct an organic/inorganic composite interfacial layer including Li-Zn alloy and lithium polyacrylate on the surface of lithium metal. The Li-Zn alloy exhibits favorable lithiophilic and high Li+ diffusion coefficient, whereas highly elastic lithium polyacrylate is a Li+ conductor and provides excellent mechanical properties. Finally, the ZA-Li||ZA-Li cell shows stable cycling for over 1800 h with 1 mA cm−2 at 2 h per cycle, which demonstrates a pronounced inhibition of lithium dendrite growth. Based on the above merits, this work would open a new avenue to develop advanced artificial interfacial layer with multiple capabilities for high-performance lithium metal batteries. |
| published_date |
2024-07-10T13:21:40Z |
| _version_ |
1813254348069666816 |
| score |
11.033506 |