De Novo Fabrication of Large-Area and Self-Standing Covalent Organic Framework Films for Efficient Separation

Covalent organic frameworks (COFs) have aroused extensive attention from various fields owing to their numerous advantages, including permanent porosity, high crystallinity, strong robustness, and well-ordered channels. However, the poor processability of the crystallite powder has greatly impeded their further utilization in many advanced devices and frontier areas. In this work, we fabricate a series of COF films using an interfacial polymerization strategy at a liquid-liquid interface under ambient conditions. The as-synthesized freestanding films are continuous, flexible, and defect-free and have large areas of up to 4 x 6 cm(2). In addition, the pore sizes of these COF films can be well controlled based on the principle of reticular chemistry. These films exhibit high chemical stability even in acidic and basic aqueous solutions. More significantly, the highly robust COF films can serve as a nanofiltration membrane for efficient separation of pollutant molecules with different dimensions. These films show high selectivity for the separation of mixed molecule feed and excellent recyclability without a significant loss in the rejection rate.

Automated summary

Covalent organic framework (COF) films were fabricated using an interfacial polymerization strategy at a liquid-liquid interface, exhibiting continuous, flexible, and defect-free properties with controllable pore sizes and high chemical stability. These highly robust films can function as nanofiltration membranes for efficient separation of pollutant molecules, showing high selectivity and excellent recyclability.