Xue Yuxin, Lin Qiong, Sun Xiangfeng, Li Dongxia, Fu Yulin, Li Zhiqi, Shi Yuanhao, Luo Chongxian, Gui Xuefeng, Xu Kai
Guangzhou Institute of Chemistry, Chinese Academy of Sciences, Guangzhou, 510650, China.
University of Chinese Academy of Sciences, Beijing, 100049, China.
Small. 2025 Jun;21(23):e2501988. doi: 10.1002/smll.202501988. Epub 2025 Apr 16.
The resurgence of lithium metal batteries (LMBs) necessitates advancements in electrolyte engineering to regulate ion transport and manipulate interfacial characteristics. Noteworthy strategies encompass the development of high-efficiency lithium-ion conductors for quasi-solid-state composite electrolytes. In this context, two crystalline 3D COFs are presented that are thoughtfully designed by selecting decasilsesquioxane (T) cage building blocks and linear linkers to open up efficient ion-conducting pathways. The cage silsesquioxane-knotted COFs (CSQ-COFs) feature densely interconnected pore channels and a multimodal pore size distribution, which gives them the potential to function as ionic conductors. In addition, the dissociation of electrolyte salts by the silsesquioxane framework, along with the strong adsorption of anions, synergistically enhances ion transport. The coin cell assembled with CSQ-COF displays an ionic conductivity of 0.727 mS cm at 80 °C, an E of 0.12 eV, and t of 0.83. Therefore, Li symmetrical cell demonstrates excellent Li plating/stripping behaviors for 600 h under 0.5 mA cm. The Li/LiFePO cell containing the CSQ-COF solid-state electrolyte delivers an initial discharge capacity of ≈159.6 mAh g at a rate of 0.5 C at room temperature with excellent capacity retention after 150 cycles. This work provides a novel insight on the development of 3D COF ionic conductors.
锂金属电池(LMBs)的复兴需要电解质工程方面的进展,以调节离子传输并控制界面特性。值得注意的策略包括开发用于准固态复合电解质的高效锂离子导体。在此背景下,本文展示了两种晶体三维共价有机框架(COFs),它们是通过选择十聚倍半硅氧烷(T)笼状结构单元和线性连接体精心设计而成,以开辟高效的离子传导通道。笼状倍半硅氧烷连接的COFs(CSQ-COFs)具有密集互连的孔道和多峰孔径分布,这使其具有作为离子导体的潜力。此外,倍半硅氧烷骨架对电解质盐的解离作用,以及对阴离子的强吸附作用,协同增强了离子传输。用CSQ-COF组装的扣式电池在80°C时的离子电导率为0.727 mS cm,活化能为0.12 eV,迁移数为0.83。因此,锂对称电池在0.5 mA cm下600 h内表现出优异的锂沉积/剥离行为。含有CSQ-COF固态电解质的Li/LiFePO电池在室温下以0.5 C的倍率首次放电容量约为159.6 mAh g,150次循环后具有优异的容量保持率。这项工作为三维COF离子导体的开发提供了新的见解。