Abstract
AbstractA series of piperidine‐naphthalene monoimide, donor−acceptor (D−A) chromophores and their thionated derivatives were prepared. The physical properties of the chromophores were studied by spectroscopic and electrochemical measurements and DFT calculations. Relative to their non‐thionated counterparts, the thionated D−A chromophores display enhanced visible‐light absorption and 1O2‐sensitization quantum yields and negligible fluorescence, suggesting facile triplet formation of this class of molecules. This behavior originates from the significant n‐π* character in the singlet excited state, resulting in large spin‐orbit coupling between the singlet/triplet manifolds regardless of the degree of D/A interactions. With the electrochemically active D/A moieties and high triplet energy, the thionated chromophores can be used as amphoteric photosensitizers to catalyze reductive and oxidative photoreactions with efficiency comparable to Ru(bpy)32+ as the sensitizer. Our results demonstrate that thiocarbonylation can be utilized in amide/imide‐containing D−A chromophores to provide a wide range of heavy‐atom‐free redox‐active photosensitizers.
Highlights
A series of piperidine-naphthalene monoimide, donorÀ acceptor (DÀ A) chromophores and their thionated derivatives were prepared
Renovated molecular designs of organic triplet chromophores are continuously being explored to unlock the full potential of heavy-atom-free photosensitizers,[3a,11] with the introduction of supramolecular interactions to enhance the bimolecular reaction kinetics and the substrate specificity being some of the latest developments.[12]
Inspired by the prosperous use of organometallic photosensitizers, we propose a new class of organic photosensitizers based on thiocarbonyl donorÀ acceptor (DÀ A) chromophores
Summary
A series of piperidine-naphthalene monoimide, donorÀ acceptor (DÀ A) chromophores and their thionated derivatives were prepared. The red shift has been reported for other thionated rylene imides, and is often attributed to the reduction in the LUMO energy.[13a,17] The improved visible-light absorption, especially significant for N-PipNMI-S and N-PhPipNMI-S, together with the substantial extinction coefficients of these thionated DÀ A chromophores
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