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Biomimetic Spider‐Web‐Like Composites for Enhanced Rate Capability and Cycle Life of Lithium Ion Battery Anodes
Authors:Pallab Bhattacharya  Manikantan Kota  Dong Hoon Suh  Kwang Chul Roh  Ho Seok Park
Institution:1. School of Chemical Engineering, Sungkyunkwan University (SKKU), Jangan‐gu, Suwon, Republic of Korea;2. Energy Efficient Materials Team, Energy and Environmental Division, Korea Institute of Ceramic Engineering and Technology, Jinju, Republic of Korea
Abstract:It is crucial to control the structure and composition of composite anode materials to enhance the cell performance of such anode materials for lithium ion batteries. Herein, a biomimetic strategy is demonstrated for the design of high performance anode materials, inspired by the structural characteristics and working principles of sticky spider‐webs. Hierarchically porous, sticky, spider‐web‐like multiwall carbon nanotube (MWCNT) networks are prepared through a process involving ozonation, ice‐templating assembly, and thermal treatment, thereby integrating the networks with γ‐Fe2O3 particles. The spider‐web‐like MWCNT/γ‐Fe2O3 composite network not only traps the active γ‐Fe2O3 materials tightly but also provides fast charge transport through the 3D internetworked pathways and the mechanical integrity. Consequently, the composite web shows a high capacity of ≈822 mA h g?1 at 0.05 A g?1, fast rate capability with ≈72.3% retention at rates from 0.05 to 1 A g?1, and excellent cycling stability of >88% capacity retention after 310 cycles with a Coulombic efficiency >99%. These remarkable electrochemical performances are attributed to the complementarity of the 3D spider‐web‐like structure with the strong attachment of γ‐Fe2O3 particles on the sticky surface. This synthetic strategy offers an environmentally safe, simple, and cost‐effective avenue for the biomimetic design of high performance energy storage materials.
Keywords:biomimetic  carbon nanotubes  hierarchical structures  lithium ion batteries  nanocomposite
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