结晶度
堆积
超分子化学
材料科学
纳米技术
杂原子
氢键
共价键
连接器
聚合物
非共价相互作用
化学稳定性
嵌入
超分子聚合物
化学工程
纳米结构
热稳定性
作者
Pengcheng Wu,Ke Wang,Liancheng Hu,Dingguo Xu,Xiaowei Li,Yimin Cai,Ning Liu,Wen Feng,Lihua Yuan
标识
DOI:10.1002/anie.202525223
摘要
The demand for high-performance applications of covalent organic frameworks (COFs) under harsh conditions drives the need for reaching both outstanding crystallinity and high stability, while these two properties necessitate contradictory structural features and are thus challenging to achieve simultaneously. We herein report a multidimensional supramolecular approach to manipulating both crystallinity and stability of COFs by harnessing in-plane and out-of-plane interactions with greatly enhanced performance in applications. The introduction of triple three-center hydrogen bonds into the linkage enhances in-plane local rigidity and planarity, while embedding electron-withdrawing heteroatoms into the linker mitigates out-of-plane electrostatic repulsion. The integration of the two structural features into a single COF results in profoundly enhanced interlayer π-π stacking interactions, ultimately providing considerably higher crystallinity and stability than those of control COFs, as well as significantly improved performance under harsh conditions, as exemplified by palladium separation from simulated high-level liquid waste. This work establishes a hybrid supramolecular approach to improving both crystallinity and stability of COFs toward prominent applications.
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