Pyridazine‐Promoted Construction of Vinylene‐Linked Covalent Organic Frameworks with Exceptional Capability of Stepwise Water Harvesting
Kaiwen Mou, Fancheng Meng, Zixing Zhang, Xiaomeng Li, Mengqi Li, Yang Jiao, Zhiheng Wang, Xue Bai, Fan Zhang
Abstract
Abstract In this study, we successfully developed two novel vinylene‐linked covalent organic frameworks (COFs) using 2‐connected 3,6‐dimethylpyridazine through Knoevenagel condensation. These COFs featured finely tailored micro‐/nano‐scale pore sizes, high surface areas and stable non‐polar vinylene linkages. Finely resolved powder X‐ray diffraction patterns demonstrated highly crystalline structures with a hexagonal lattice in the AA layer stacking. The resulting one‐dimensional channels possess strong hydrogen‐bond accepting sites arising from the decorated cis ‐azo/azine units with two pairs of fully exposed lone pair electrons, endowing the as‐prepared COFs with exceptional water absorption properties. The g‐DZPH‐COF exhibited successive steep water uptake steps starting from low relative pressures ( P / P STA =0.1), with the remarkable water uptake capacity of 0.26 g/g at P / P STA =0.2 (25 °C), which is the optimal value recorded among the reported COFs. Dynamic vapour sorption measurements revealed the fast kinetics of these COFs, even in the cluster formation process. Water uptake and release cycling tests demonstrated their outstanding hydrolytic stability, durability, and adsorption–desorption retention ability.