Heterochiral π‐stacking dimerization of helical secondary structures with emerging supramolecular chirality

In this work, we report a new type of interface modes between helical secondary structures by noncovalent assembly along the helical axis. The dimerization of helical secondary structures mediated by aromatic π-stacking leads to discrete heterochiral dimeric helical rods consisting of left-handed helix and right-handed helix, which has been demonstrated by single-crystal X-ray diffraction. We conduct chiral induction studies on discrete heterochiral dimers to regulate the preference of the helical sense. Surprisingly, we found a novel supramolecular chirality potentially occurring inside the super-secondary structure of chirality-induced heterochiral helical dimers, rather than the racemization of helical chirality. Furthermore, chirality-induced heterochiral helical dimers can exhibit unique chiral switches when formed or not formed. In order to identify the emerging supramolecular chirality of discrete heterochiral dimeric helix, we covalently synthesized meso-helix structures with opposite helical handedness. The chirality of aromatic chromophore linker was confirmed by chiral induction despite competition from opposite handed helices, which strongly demonstrates the occurrence of emerging supramolecular chirality in heterochiral dimeric helix. This study not only reports the heterochiral π-stacking dimerization of helical secondary structures for the first time, but also discovers novel supramolecular chirality hidden in the structure of noncovalent and even covalent meso-helices.