Amphiphilic Organic Cages: Self-Assembly into Nanotubes and Enhanced Anion-π Interactions

Triazine- and Binaphthol-Based Chiral Macrocycles and Cages: Synthesis, Structure, and Solid-State Assembly

A series of triazine- and binaphthol-based homochiral and heterochiral macrocycles and cages were easily synthesized. Either fragment coupling or a one-pot approach afforded the desired products in 52-91% yields on a multigram scale as enantiopure forms. As disclosed by the crystal structures, these macrocycles and cages possess intriguing chiral cavities and assembly properties. In particular, (S,S,S)-Cage features a D₃-symmetric double-faced propeller-like structure with three chiral pockets at the side. It forms a highly ordered hexagonal column-like assembly and multiple distinct helical channels in its crystal.

Stable and soluble oligomers of porous organic cages through post-synthesized modification

The porous organic cage oligomers as giant molecules were fabricated through post-synthesized modification in a controlled way and moderate yields.