Wiley_ADVANCED ENERGY MATERIALS _front cover
Volume11, Issue36
September 23, 2021
2170139
Textile-Type Lithium-Ion Battery Cathode Enabling High Specific/Areal Capacities and High Rate Capability through Ligand Replacement Reaction-Mediated Assembly (Adv. Energy Mater. 36/2021)
In article number 2101631, Seung Woo Lee, Yongmin Ko, Jinhan Cho and co-workers use interfacial assemblies based on hydrogen-bonding and covalent-bonding (i.e., ligand replacement reaction) to effectively utilize the large surface area of textiles, and notably improve the charge transfer within textile electrodes. Based on this approach, a high-performance textilebased lithium ion battery cathode with high specific/areal capacities and high rate capability is prepared.
- Minseong Kwon
- Donghyeon Nam
- Seokmin Lee
- Yongju Kim
- Bongjun Yeom
- Jun Hyuk Moon
- Seung Woo Lee
- Yongmin Ko
- Jinhan Cho
https://onlinelibrary.wiley.com/doi/10.1002/aenm.202170139
Image created by minjeong Kim / Nanosphere
Wiley_ADVANCED ENERGY MATERIALS _front cover
Volume11, Issue36
September 23, 2021
2170139
Textile-Type Lithium-Ion Battery Cathode Enabling High Specific/Areal Capacities and High Rate Capability through Ligand Replacement Reaction-Mediated Assembly (Adv. Energy Mater. 36/2021)
In article number 2101631, Seung Woo Lee, Yongmin Ko, Jinhan Cho and co-workers use interfacial assemblies based on hydrogen-bonding and covalent-bonding (i.e., ligand replacement reaction) to effectively utilize the large surface area of textiles, and notably improve the charge transfer within textile electrodes. Based on this approach, a high-performance textilebased lithium ion battery cathode with high specific/areal capacities and high rate capability is prepared.
https://onlinelibrary.wiley.com/doi/10.1002/aenm.202170139
Image created by minjeong Kim / Nanosphere