The synthesis of highly crystalline covalent organic frameworks via the monomer crystal induction for the photocatalytic asymmetric a-alkylation of aldehydes

Covalent organic frameworks (COFs) are ordered porous organic frameworks, which found wide applications in gas sorption and separation, catalysis, sensoring, and many others owing to their permanent porosity and designable structural motifs. To take full advantage of the well-defined porous structure, COFs need to be synthesized with high crystallinity. However, the synthesis of COFs with high crystalline is a general challenge, which requires dedicated linker design and reaction condition optimization. To achieve this, we developed a monomer crystal-induced strategy to construct crystalline COFs. The synthesized COFs have higher crystallinity, surface area, and thermal stability than those prepared without monomer crystal induction. Furthermore, the high crystalline COFs exhibit excellent performance in the photocatalytic asymmetric alkylation of aldehydes. The monomer crystal-induced method not only represents a new route for the synthesis of crystalline COFs but also sheds light on the mechanism of the formation of COFs.