Gao You, Liu Qing-Song, Long Man-Cheng, Zhu Guo-Rui, Wu Gang, Wang Xiu-Li, Wang Yu-Zhong
The Collaborative Innovation Center for Eco-Friendly and Fire-Safety Polymeric Materials (MoE), National Engineering Laboratory of Eco-Friendly Polymeric Materials (Sichuan), State Key Laboratory of Polymer Materials Engineering, College of Chemistry, Sichuan University, Chengdu, Sichuan, 610064, China.
Small. 2024 Aug;20(33):e2400980. doi: 10.1002/smll.202400980. Epub 2024 Mar 28.
Polyolefin separators are the most commonly used separators for lithium batteries; however, they tend to shrink when heated, and their Li transference number (t ) is low. Metal-organic frameworks (MOFs) are expected to solve the above problems due to their high thermal stability, abundant pore structure, and open metal sites. However, it is difficult to prepare high-porosity MOF-based membranes by conventional membrane preparation methods. In this study, a high-porosity free-standing MOF-based safety separator, denoted the BCM separator, is prepared through a nano-interfacial supramolecular adhesion strategy. The BCM separator has a large specific surface area (450.22 m g) and porosity (62.0%), a high electrolyte uptake (475 wt%), and can maintain its morphology at 200 °C. The ionic conductivity and t of the BCM separator are 1.97 and 0.72 mS cm, respectively. Li//LiFePO cells with BCM separators have a capacity retention rate of 95.07% after 1100 cycles at 5 C, a stable high-temperature cycling performance of 300 cycles at 80 °C, and good capacity retention at -40 °C. Li//NCM811 cells with BCM separators exhibit significantly improved rate performance and cycling performance. Pouch cells with BCM separators can work at 120 °C and have good safety at high temperature.
聚烯烃隔膜是锂电池中最常用的隔膜;然而,它们在受热时容易收缩,并且其锂离子迁移数(t )较低。金属有机框架(MOF)由于其高热稳定性、丰富的孔结构和开放的金属位点,有望解决上述问题。然而,采用传统的膜制备方法很难制备出高孔隙率的MOF基膜。在本研究中,通过纳米界面超分子粘附策略制备了一种高孔隙率的自支撑MOF基安全隔膜,称为BCM隔膜。BCM隔膜具有较大的比表面积(450.22 m g)和孔隙率(62.0%),较高的电解液吸收率(475 wt%),并且能够在200°C下保持其形态。BCM隔膜的离子电导率和t 分别为1.97和0.72 mS cm。采用BCM隔膜的Li//LiFePO电池在5°C下1100次循环后容量保持率为95.07%,在80°C下具有300次循环的稳定高温循环性能,在-40°C下具有良好的容量保持率。采用BCM隔膜的Li//NCM811电池的倍率性能和循环性能显著提高。采用BCM隔膜的软包电池能够在120°C下工作,并且在高温下具有良好的安全性。
