Multifunctional luminescent materials have attracted intensive interests. However, the mechanisms behind them are still to be explored. In this work, three Zn(II) complexes based on Schiff bases (HL1 and HL2)...
Pure organic multi-color luminescent materials were developed using the supramolecular complex strategy based on a high-efficiency blue-emitting anthracene derivative, in which the emission color can be finely tuned from blue...
The strategy of controlling the rotation of molecular rotors by hydrogen bonding in the excited state to construct stimuli-responsive luminescent materials (SRLMs) has been proposed.
Abstract:Rational design of title ligands and their transition metal complexes gave the high effective catalysts for hydrogen economy and perspective “stimuli-responsive” luminescent materials. Together with the above novel cyclic aminomehtylphospine ligands have showed a row of unpredicted properties like spontaneous formation of macrocyclic molecules, unique reversible slitting of macrocycles on to the smaller cycles, rapid interconversion of the isomers catalyzed by both acids and transitional metals, bridging behavior of usually chelating ligands and unexpected high influence of handling substituents on N-atoms on to the catalytic and luminescent properties of P-complexes.
The electron-rich nitro group, having higher sensitivity to environments, is attractive for constructing stimuli-responsive luminescent materials. However, it also causes the fluorescence quenching of luminogens, making a formidable challenge to...
Stimuli-responsive luminescent materials have received tremendous attention as next-generation smart materials for various applications such as biomedical probes, visualization of pollutants, sensing toxic gases, and so on. Boron-containing luminophores have...
Organoplatinum(ii) complexes with various π-conjugated ligands exhibit intriguing luminescent properties and they are a promising candidate to construct smart luminescent materials in optical devices, chemical sensors, and bio-imaging.