Abstract
AbstractSupramolecular artificial light‐harvesting system with highly efficient host–guest energy transfer pathway provides an ideal platform for optimizing the photochemistry process. The consecutive photo‐induced electron transfer (conPET) process overcomes the energy limitation of visible‐light photocatalysis, but is often compromised by mismatching between the absorption of ground state dye and its radical, weakening the efficiency of photoredox reaction. By encapsulating a conPET photocatalyst rhodamine 6G into metal‐organic cage, the supramolecular approach was undertaken to tackle the intrinsic difficulty of matching the light absorption of photoexcitation between rhodamine 6G and its radical. The highly efficient Förster resonance energy transfer from the photoexcited cage to rhodamine 6G forced by host–guest encapsulation facilitates the conPET process for the single‐wavelength light‐driven activation of aryl halides by stabilizing and accelerating the production and accumulation of the rhodamine 6G radical intermediate. The tunable and flexible nature of the supramolecular host–guest complex renders the cage‐based encapsulation strategy promising for the development of ideal photocatalysts toward the better utilization of solar energy.
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