Abstract
This work presents new type of bis-1,3-diketone calix[4]arene derivatives, in which the chelate groups are directly conjugated through the carbonyl carbon atom with aromatic fragments of calix[4]arene, and their lower rims bear four propoxy groups or pairs of hydroxy and propoxy groups. Tetrapropoxy-calix[4]arene is synthesized by acylation of magnesium acetophenone enolates with calix[4]arene-based 1-acylbenzotriazoles, and the dipropoxy analogue is obtained by bromination of bis(chalcone)-calix[4]arene, followed by methanolysis and hydrolysis. Significant conjugation of 1,3-diketo groups with the π-system of calix[4]arene is revealed for both calixarenes. Analysis of complexes formed by the ligands using the UV–Vis and NMR diffusion methods in combination with DFT calculations makes it possible to identify differences in the modes of complex formation of di- and tetrapropoxy subsituted ligands. It is demonstrated that a more enhanced sensibilization of Eu3+-luminescence in complexes with dipropoxy-calix[4]arene compared to that for complexes with tetrapropoxy-counterpart correlates with the formation of a tetrameric structure, in which the binding of Eu3+ ions does not disturb the conjugation of 1,3-diketonate moieties with aromatic calix[4]arene fragments. This is quite different from the significant disturbance of conjugation during intramolecular bis-chelation of Eu3+ ion by 1,3-diketo groups of tetraalkyl subsituted ligand.
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