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Nanohoops Favour Light‐Induced Energy Transfer over Charge Separation in Porphyrin/[10]CPP/Fullerene Rotaxanes

Fabian Schwer, Simon Zank, Markus Freiberger, Fabian M. Steudel, Niklas Geue, Lei Ye, Perdita E. Barran, Thomas Drewello, Dirk M. Guldi, Max von Delius

2024Angewandte Chemie International Edition11 citationsDOIOpen Access PDF

Abstract

Abstract [2]Rotaxanes offer unique opportunities for studying and modulating charge separation and energy transfer, because the mechanical bond allows the robust, yet spatially dynamic tethering of photoactive groups. In this work, we synthesized [2]rotaxane triads comprising a central (aza)[10]CPP⊃C 60 bis‐adduct complex and two zinc porphyrin stoppers to address how the movable nanohoop affects light‐induced charge separation and energy transfer between the rotaxane subcomponents. We found that neither the parent nanohoop [10]CPP nor its electron‐deficient analogue aza[10]CPP actively participate in charge separation. In contrast, the nanohoops completely prevented through‐space charge separation. This result is likely due to supramolecular “shielding”, because charge separation was observed in the thread that acted as reference dyad. On the other hand, the suppression of electron transfer allowed the observation of energy transfer from the porphyrin triplet to the fullerene triplet state with a lifetime of ca. 25 μs. The presence of the interlocked nanohoops therefore leads to a dramatic switch between charge separation and energy transfer. We suggest that our results explain observations made by others in photovoltaic devices comprising nanohoops and may pave the way toward strategic uses of mechanically interlocked architectures in devices that feature (triplet) energy transfer.

Topics & Concepts

PorphyrinFullereneCharge (physics)PhotochemistryEnergy transferMaterials scienceChemical physicsChemistryPhysicsOrganic chemistryQuantum mechanicsSynthesis and Properties of Aromatic CompoundsFullerene Chemistry and ApplicationsPorphyrin and Phthalocyanine Chemistry