Abstract
LiFePO4emerges as a viable alternative to cobalt‐containing cathodes, such as Li[Ni1–x–yMnxCoy]O2and Li[Ni1−x−yCoxAly]O2. As Fe is abundant in nature, LiFePO4is a low‐cost material. Moreover, stable structure of LiFePO4imparts long service life and thermal stability. However, the practical implementation of LiFePO4cathode in energy storage devices is impeded by its low energy density and high ionic/electrical resistance. Herein, the LiFePO4electrode with high active material loading and low ionic/electrical resistance through the dry process is reported for the first time. The dry process not only enables the uniform distribution of the polymeric binders and conductive additives within the thick electrode but also inhibits the formation of cracks. Furthermore, the bridge‐like connection of polytetrafluoroethylene facilitates the insertion and extraction of Li ions to the LiFePO4crystal. Hence, the dry‐processed LiFePO4electrode with high areal capacity (7.8 mAh cm−2) exhibits excellent cycle stability over 300 cycles in full‐cell operation. In addition, it is demonstrated that the estimated energy density of prismatic cell with the dry‐processed LiFePO4electrode is competitive with state‐of‐the‐art Li[Ni1–x–yMnxCoy]O2‐based battery.
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