Abstract
Gold(I) complexes, enabling to form linear coordination geometry, are promising materials for manifesting both aggregation-induced emission (AIE) behavior due to strong intermolecular Au–Au (aurophilic) interactions and liquid crystalline (LC) nature depending on molecular geometry. In this study, we synthesized several gold(I) complexes with rod-like molecular skeletons where we employed a mesogenic biphenylethynyl ligand and an isocyanide ligand with flexible alkoxyl or alkyl chains. The AIE behavior and LC nature were investigated experimentally and computationally. All synthesized gold(I) complexes exhibited AIE properties and, in crystal, room-temperature phosphorescence (RTP) with a relatively high quantum yields of greater than 23% even in air. We have demonstrated that such strong RTP are drastically changed depending on the crystal-size and/or crystal growth process that changes quality of crystals as well as the aggregate structure, of e.g., Au–Au distance. Moreover, the complex with longer flexible chains showed LC nature where RTP can be observed. We expect these rod-like gold(I) complexes to have great potential in AIE-active LC phosphorescent applications such as linearly/circularly polarizing phosphorescence materials.
Highlights
Luminescent organic materials generally only exhibit efficient luminescence in dilute solutions, which is diminished once they form aggregates. This decrease in the luminescence intensity is known as the aggregation-caused quenching (ACQ) effect, which is the principal concern for practical luminescent applications [1]
We synthesized a series of gold(I) complexes with a rod-like molecular skeleton with both a biphenylethynyl ligand and an isocyanide ligand
All synthesized gold(I) complexes exhibited aggregation-induced emission (AIE) properties and room-temperature phosphorescence (RTP) in the crystal state with the Φ greater than 23% even in air
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Au–Au (aurophilic) interactions play an important role in inducing efficient luminescence from aggregates This interaction is expressed when the distance between neighboring gold atoms falls in the range of. Liquid-crystalline (LC) gold(I) complexes have attracted much attention in controlling the aggregated structure due to the nature of LC to both self-organize and be responsive to. Molecules 2021, 26, 7255 crystalline (LC) gold(I) complexes have attracted much attention in controlling the aggregated structure due to the nature of LC to both self-organize and be responsive to external fields (e.g., electric and magnetic fields). Rod-like gold(I) complexes have been a flexible chain consisting of alkoxy and alkyl chains. Rod-like gold(I) complexes have synthesized, leading to the development of various AIE-active LC systems [3,8].
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