Molecular folding governs switchable singlet oxygen photoproduction in porphyrin-decorated bistable rotaxanes
Rotaxanes are mechanically interlocked molecules where a ring (macrocycle) is threaded onto a linear molecule (thread). The position of the macrocycle on different stations on the thread can be controlled in response to external stimuli, making rotaxanes applicable as molecular switches. Here we sho...
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Veröffentlicht in: | Communications chemistry 2024-08, Vol.7 (1), p.171-11, Article 171 |
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Sprache: | eng |
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Zusammenfassung: | Rotaxanes are mechanically interlocked molecules where a ring (macrocycle) is threaded onto a linear molecule (thread). The position of the macrocycle on different stations on the thread can be controlled in response to external stimuli, making rotaxanes applicable as molecular switches. Here we show that bistable rotaxanes based on the combination of a Zn(II) tetraphenylporphyrin photosensitizer, attached to the macrocycle, and a black-hole-quencher, attached to the thread, are capable of singlet oxygen production which can be switched on/off by the addition of base/acid. However, we found that only a sufficiently long linker between both stations on the thread enabled switchability, and that the direction of switching was inversed with regard to the original design. This unexpected behavior was attributed to intramolecular folding of the rotaxanes, as indicated by extensive theoretical calculations. This evidences the importance to take into account the conformational flexibility of large molecular structures when designing functional switchable systems.
Singlet oxygen is a highly useful reagent for organic synthesis, disinfection and photodynamic therapy, but its high reactivity calls for systems where its photochemical generation can be switched on and off on demand. Here, the authors report porphyrin-decorated pH-switchable [2]rotaxanes for singlet oxygen photoproduction, finding that molecular folding of the rotaxanes influences the on/off switching in an unforeseen way. |
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ISSN: | 2399-3669 2399-3669 |
DOI: | 10.1038/s42004-024-01247-7 |