Corannulene‐Based Quintuple [6]/[7]Helicenes: Well‐Preserved Bowl Core, Inhibited Bowl Inversion and Supramolecular Assembly with Fullerenes

Herein, corannulene‐based quintuple [6]helicenes (Q[6]H‐1 and Q[6]H‐2) and [7]helicene (Q[7]H) were synthesized via penta‐fold Heck and Mallory reaction. Notably, Q[7]H represents the highest reported helicene based on corannulene. X‐ray crystallography reveals that Q[6]H‐2 adopts a propeller‐shaped conformation with a well‐preserved corannulene core, while Q[6]H‐1 and Q[7]H exhibit quasi‐propeller‐shaped conformations. Upon heating, conformer Q[6]H‐1 undergoes conversion to the thermodynamically more stable conformer Q[6]H‐2, whereas conformer Q[7]H remains unchanged due to larger steric congestion. Racemization of the enantiomer of Q[6]H‐1 and conformational conversion were observed simultaneously at elevated temperature, with DFT studies indicating a racemization barrier of 32.06 kcal ⋅ mol−1. In contrast, the racemization barrier for Q[6]H‐2 was calculated to be 45.46 kcal ⋅ mol−1, indicating exceptional chiral stability. Surprisingly, the bowl inversions of Q[6]H‐1 and Q[6]H‐2 conformers are somewhat inhibited by the helical blades, whereas this was not observed for other possible conformers of Q[6]H. These results first demonstrated that subtle conformational variations can lead to significant changes in chiral stability and bowl inversions of multiple helicenes. Due to the well‐preserved corannulene core, propeller‐shaped conformation and electron complementarity, Q[6]H‐2 can recognize fullerenes in both solution and solid state, which is a rare instance of co‐crystallization assembly between multiple helicenes and fullerenes. Quintuple [6]helicenes with Q[6]H‐1 and Q[6]H‐2 conformers, along with [7]helicene Q[7]H, were synthesized by directly hybridizing corannulene and quintuple helicene. Q[6]H‐2 adopts a propeller‐shaped conformation with a well‐preserved corannulene core, enabling it to recognize fullerenes. Furthermore, the subtle conformational variations of Q[6]H lead to significant changes in its chiral stability and bowl inversions.