1. Fluorine‐Rich Covalent Organic Framework to Boost Electrochemical Kinetics and Storages of K+ Ions for Potassium‐Ion Battery.
- Author
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Lee, Jiyoung, Lim, Haeseong, Park, Junkil, Kim, Min‐Soo, Jung, Ji‐Won, Kim, Jihan, and Kim, Il‐Doo
- Subjects
POTASSIUM ions ,ELECTRON affinity ,ENERGY storage ,IONS ,STORAGE batteries ,SURFACE area - Abstract
Covalent organic frameworks (COFs), featuring ordered nanopores with numerous accessible redox sites, have drawn much attention as promising electrode materials for rechargeable batteries. Thus far, however, COF‐based battery electrodes have exhibited limited capacity and unsatisfactory cycling stability due to the unwanted side reactions over their large surface area. Herein, a fluorine‐rich covalent organic framework (F‐COF) as an electrode material with improved stability and performance for potassium‐ion batteries is developed. The fluorinated COF not only stabilizes intercalation kinetics of K+ ions but also reinforces its electron affinity and conductivity, improving the reversibility of bond transitions during discharge–charge cycles. As a result, F‐COF affords a high specific capacity (95 mAh g−1 at fast rates up to 5 C) and excellent cycling stability (5000 cycles with ≈99.7% capacity retention), outperforming the pristine COF‐based electrodes devoid of F atoms. Notably, the experimental capacity of F‐COF approaches its theoretical value, confirming that a large proportion of electroactive sites are being actively utilized. Altogether, this work addresses the significant role of F atoms in improving the K+‐ion storage capability of COFs and provides the rational design principles for the continued development of stable and high‐performance organic electrode materials for energy storage devices. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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