Ding Zhengping, Yang Chen, Zou Jian, Chen Shulin, Qu Ke, Ma Xiumei, Zhang Jingmin, Lu Jing, Wei Weifeng, Gao Peng, Wang Liping
International Center for Quantum Materials & Electron Microscopy Laboratory, School of Physics, Peking University, Beijing, 100871, P. R. China.
State Key Laboratory for Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University, Beijing, 100871, P. R. China.
Adv Mater. 2021 Jan;33(3):e2006118. doi: 10.1002/adma.202006118. Epub 2020 Dec 9.
Fluorographites (CF ) are ultrahigh-energy-density cathode materials for alkaline-metal primary batteries. However, they are generally not rechargeable. To elucidate the reaction mechanism of CF cathodes, in situ transmission electron microscopy characterizations and ab initio calculations are employed. It is found that it is a two-phase mechanism upon K/Na/Li ion insertion; crystalline KF (crystalline NaF nanoparticles and amorphous LiF) is generated uniformly within the amorphous carbon matrix, retaining an unchanged volume during the discharge process. The diffusivity for K/Na/Li ion migration within the CF is ≈2.2-2.5 × 10 , 3.4-5.3 × 10 , and 1.8-2.5 × 10 cm s , respectively, which is comparable to the diffusivity of K/Na/Li ions in liquid-state cells. Encouraged by the in situ transmission electron microscopy (TEM) results, a new rechargeable all-solid-state Li/CF battery is further designed that shows a part of the reversible specific discharge capacity at the 2nd cycle. These findings demonstrate that a solid-state electrolyte provides a different reaction process compared with a conventional liquid electrolyte, and enables CF to be partly rechargeable in solid-state Li batteries.
氟化石墨(CF)是用于碱金属一次电池的超高能量密度阴极材料。然而,它们通常不可充电。为了阐明CF阴极的反应机制,采用了原位透射电子显微镜表征和从头算计算。研究发现,在钾/钠/锂离子插入时是两相机制;结晶KF(结晶NaF纳米颗粒和非晶LiF)在非晶碳基质中均匀生成,在放电过程中体积保持不变。钾/钠/锂离子在CF中迁移的扩散率分别约为2.2 - 2.5×10⁻¹³、3.4 - 5.3×10⁻¹³和1.8 - 2.5×10⁻¹³ cm² s⁻¹,这与钾/钠/锂离子在液态电池中的扩散率相当。受原位透射电子显微镜(TEM)结果的鼓舞,进一步设计了一种新型可充电全固态锂/CF电池,该电池在第2个循环时显示出部分可逆比放电容量。这些发现表明,固态电解质与传统液体电解质相比提供了不同的反应过程,并使CF在固态锂电池中能够部分充电。
