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Abstract
Bistable rotaxanes were used to develop pH-switchable systems for singlet dioxygen photoproduction. Based on the combination of a Zn(II)-tetraphenylporphyrin photosensitizer, which was attached to the macrocycle, and a black-hole-quencher, which was used as one of the rotaxane-stoppers, singlet oxygen production could be switched on/off ((Δ= 0.15/0.03) 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.
Supplementary materials
Title
Supporting information
Description
Details of the synthesis and characterization of novel compounds, photophysical measurements, determination of singlet oxygen-production and details regarding the theoretical calculations and their evaluations.
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