Marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells
Zn metal is a promising anode material in aqueous batteries, but the direct use of Zn foil encounters severe issues of dendrite formation and side reactions, causing short cycle life. Conventional thick and rigid insulating protection layers may impede Zn ion diffusion and detach during mechanical d...
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sg-ntu-dr.10356-1746732024-04-08T15:35:16Z Marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells Liu, Huan Xu, Zhijing Cao, Bin Xin, Zijun Lai, Hongjuan Gao, Shan Xu, Bin Yang, Jin-Lin Xiao, Tao Zhang, Bao Fan, Hong Jin School of Physical and Mathematical Sciences Physics Anode surface protection Flexible cell Zn metal is a promising anode material in aqueous batteries, but the direct use of Zn foil encounters severe issues of dendrite formation and side reactions, causing short cycle life. Conventional thick and rigid insulating protection layers may impede Zn ion diffusion and detach during mechanical deformation of the battery. Herein, a dendrite-free zinc anode is demonstrated by grafting a thin (≈10 nm) Ti3C2Tx MXene functional membrane which is formed via Marangoni-driven self-assembly. The thin MXene membrane initiates uniform nucleation and promotes deposition of (002)-oriented Zn in a lateral growth mode. Meanwhile, the membrane functions as a soft, stress-adaptive, and protective layer to the underneath active zinc. This functional membrane renders Zn anode with improved cycling stability without notable dendrite formation or side-reaction products. Flexible Zn─I2 pouch cells fabricated from the MXene-covered Zn foil (20 µm thick) anode and a modified ZnI2 cathode demonstrate stable capacity up to 1500 cycles and unchanged voltage upon various mechanical deformations. This work affords new insights into designing functional soft membranes for constructing flexible Zn-based energy devices. Ministry of Education (MOE) Submitted/Accepted version This work was supported by the National Natural Science Foundation of China (52273274) and the Singapore Ministry of Education by Tier 2(MOE-T2EP50121-0006) and Tier 1 (RT 8/22). H.L. also acknowledges financial support from the China Scholarship Council (202008610034). 2024-04-07T08:38:09Z 2024-04-07T08:38:09Z 2024 Journal Article Liu, H., Xu, Z., Cao, B., Xin, Z., Lai, H., Gao, S., Xu, B., Yang, J., Xiao, T., Zhang, B. & Fan, H. J. (2024). Marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells. Advanced Energy Materials. https://dx.doi.org/10.1002/aenm.202400318 1614-6832 https://hdl.handle.net/10356/174673 10.1002/aenm.202400318 2-s2.0-85188188321 en MOE-T2EP50121-0006 RT 8/22 Advanced Energy Materials © 2024 Wiley-VCH GmbH. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1002/aenm.202400318. application/pdf |
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Physics Anode surface protection Flexible cell |
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Physics Anode surface protection Flexible cell Liu, Huan Xu, Zhijing Cao, Bin Xin, Zijun Lai, Hongjuan Gao, Shan Xu, Bin Yang, Jin-Lin Xiao, Tao Zhang, Bao Fan, Hong Jin Marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells |
| description |
Zn metal is a promising anode material in aqueous batteries, but the direct use of Zn foil encounters severe issues of dendrite formation and side reactions, causing short cycle life. Conventional thick and rigid insulating protection layers may impede Zn ion diffusion and detach during mechanical deformation of the battery. Herein, a dendrite-free zinc anode is demonstrated by grafting a thin (≈10 nm) Ti3C2Tx MXene functional membrane which is formed via Marangoni-driven self-assembly. The thin MXene membrane initiates uniform nucleation and promotes deposition of (002)-oriented Zn in a lateral growth mode. Meanwhile, the membrane functions as a soft, stress-adaptive, and protective layer to the underneath active zinc. This functional membrane renders Zn anode with improved cycling stability without notable dendrite formation or side-reaction products. Flexible Zn─I2 pouch cells fabricated from the MXene-covered Zn foil (20 µm thick) anode and a modified ZnI2 cathode demonstrate stable capacity up to 1500 cycles and unchanged voltage upon various mechanical deformations. This work affords new insights into designing functional soft membranes for constructing flexible Zn-based energy devices. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Liu, Huan Xu, Zhijing Cao, Bin Xin, Zijun Lai, Hongjuan Gao, Shan Xu, Bin Yang, Jin-Lin Xiao, Tao Zhang, Bao Fan, Hong Jin |
| format |
Article |
| author |
Liu, Huan Xu, Zhijing Cao, Bin Xin, Zijun Lai, Hongjuan Gao, Shan Xu, Bin Yang, Jin-Lin Xiao, Tao Zhang, Bao Fan, Hong Jin |
| author_sort |
Liu, Huan |
| title |
Marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells |
| title_short |
Marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells |
| title_full |
Marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells |
| title_fullStr |
Marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells |
| title_full_unstemmed |
Marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells |
| title_sort |
marangoni-driven self-assembly mxene as functional membrane enables dendrite-free and flexible zinc–iodine pouch cells |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174673 |
| _version_ |
1800916297724198912 |