Li Guanjie, Li Zifei, Cai Qinqin, Yan Chong, Xing Lidan, Li Weishan
Engineering Research Center of MTEES (Ministry of Education), Research Center of BMET (Guangdong Province), Engineering Lab. of OFMHEB (Guangdong Province), Key Lab. of ETESPG (GHEI), and, Innovative Platform for ITBMD (Guangzhou Municipality), South China Normal University, 510006, Guangzhou, P. R. China.
Beijing Key Laboratory of Green Chemical Reaction Engineering and Technology, Department of Chemical Engineering, Tsinghua University, 100084, Beijing, P. R. China.
ChemSusChem. 2022 Jun 8;15(11):e202200543. doi: 10.1002/cssc.202200543. Epub 2022 May 12.
The nickel-rich cathode LiNi Co Mn O (NCM811) possesses the advantages of high reversible specific capacity and low cost, thus regarded as a promising cathode material for lithium-ion batteries (LIBs). However, the capacity of the NCM811 decays rapidly at high voltage due to the extremely unstable electrode/electrolyte interphase. The discharge capability at low temperature is also impaired because of the increasing interfacial impedance. Herein, a low-cost film-forming electrolyte additive with multi-function, phenylboronic acid (PBA), was employed to modify the interphasial properties of the NCM811 cathode. Theoretical calculation and experimental results showed that PBA constructed a highly conductive and steady cathode electrolyte interphase (CEI) film through preferential oxidation decomposition, which greatly improved the interfacial properties of the NCM811 cathode at room (25 °C) and low temperature (-10 °C). Specifically, the capacity retention of NCM811/Li cell was increased from 68 % to 87 % after 200 cycles with PBA additive. Moreover, the NCM811/Li cell with PBA additive delivered higher discharge capacity under -10 °C at 0.5 C (173.7 mAh g vs. 111.1 mAh g ). Based on the improvement of NCM811 interphasial properties by additive PBA, the capacity retention of NCM811/graphite full-cell was enhanced from 49 % to 65 % after 200 cycles.
富镍正极LiNiCoMnO(NCM811)具有可逆比容量高和成本低的优点,因此被视为一种有前途的锂离子电池(LIBs)正极材料。然而,由于电极/电解质界面极不稳定,NCM811在高电压下容量迅速衰减。由于界面阻抗增加,其低温放电性能也受到损害。在此,采用一种低成本的多功能成膜电解质添加剂苯硼酸(PBA)来改善NCM811正极的界面性能。理论计算和实验结果表明,PBA通过优先氧化分解构建了高导电性和稳定的正极电解质界面(CEI)膜,极大地改善了NCM811正极在室温(25℃)和低温(-10℃)下的界面性能。具体而言,添加PBA添加剂后,NCM811/Li电池在200次循环后的容量保持率从68%提高到87%。此外,添加PBA添加剂的NCM811/Li电池在-10℃、0.5C下具有更高的放电容量(173.7 mAh g对111.1 mAh g)。基于添加剂PBA对NCM811界面性能的改善,NCM811/石墨全电池在200次循环后的容量保持率从49%提高到65%。
