Song Depeng, Sun Xiaolin, Niu Quanhai, Zhao Qing, Wang Cheng, Yang Li, Wu Yue, Li Minmin, Ohsaka Takeo, Matsumotoc Futoshi, Wu Jianfei
Qingdao Industrial Energy Storage Research Institute, Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences, No. 189 Songling Road, Qingdao 266101, China.
Research Institute for Engineering, Kanagawa University, Kanagawa-Ku, Yokohama 221-8686, Japan.
ACS Appl Mater Interfaces. 2020 Nov 4;12(44):49666-49679. doi: 10.1021/acsami.0c14995. Epub 2020 Oct 20.
Li-rich cathodes have been in considerable attention for their high reversible capacity. However, they have serious problems like poor cycling with intense capacity decay and voltage fading, which restrict their access to practical applications. In this work, a facile and efficient strategy is proposed to alleviate these intrinsic issues with a high-efficiency electrolyte system. This special electrolyte enables Li-rich cathodes to deliver superior integrated performance with a high initial discharge capacity of 301 mAh·g, outstanding cycling stability with a capacity retention of 88% at 0.5 C over 500 cycles, and a remarkable rate capability of 136 mAh·g at 5 C, respectively. What is more, the voltage fading is largely suppressed. Physical and electrochemical characterizations demonstrate that the robust CEI film formed on the cathode surface contributes to the improved electrochemical performance. This work provides a new approach to surmount defects of Li-rich materials and will largely promote their practical applications on Li-ion batteries.
富锂正极因其高可逆容量而备受关注。然而,它们存在严重的问题,如循环性能差、容量急剧衰减和电压衰减,这限制了它们在实际应用中的使用。在这项工作中,提出了一种简便有效的策略,通过高效的电解质体系来缓解这些内在问题。这种特殊的电解质使富锂正极能够展现出优异的综合性能,初始放电容量高达301 mAh·g,在0.5 C下循环500次时容量保持率为88%,具有出色的循环稳定性,在5 C时倍率性能显著,可达136 mAh·g。此外,电压衰减也得到了很大程度的抑制。物理和电化学表征表明,在阴极表面形成的坚固的CEI膜有助于改善电化学性能。这项工作为克服富锂材料的缺陷提供了一种新方法,并将极大地促进它们在锂离子电池中的实际应用。
