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Color-tunable single-fluorophore supramolecular system with assembly-encoded emission

Qian Wang, Qi Zhang, Qi‐Wei Zhang, Xin Li, Cai‐Xin Zhao, Tianyi Xu, Da‐Hui Qu, He Tian

2020Nature Communications289 citationsDOIOpen Access PDF

Abstract

Regulating the fluorescent properties of organic small molecules in a controlled and dynamic manner has been a fundamental research goal. Although several strategies have been exploited, realizing multi-color molecular emission from a single fluorophore remains challenging. Herein, we demonstrate an emissive system by combining pyrene fluorophore and acylhydrazone units, which can generate multi-color switchable fluorescent emissions at different assembled states. Two kinds of supramolecular tools, amphiphilic self-assembly and γ-cyclodextrin mediated host-guest recognition, are used to manipulate the intermolecular aromatic stacking distances, resulting in the tunable fluorescent emission ranging from blue to yellow, including a pure white-light emission. Moreover, an external chemical signal, amylase, is introduced to control the assembly states of the system on a time scale, generating a distinct dynamic emission system. The dynamic properties of this multi-color fluorescent system can be also enabled in a hydrogel network, exhibiting a promising potential for intelligent fluorescent materials.

Topics & Concepts

FluorophoreFluorescenceStackingSupramolecular chemistryMaterials scienceIntermolecular forceNanotechnologyAmphiphileSupramolecular assemblyMoleculePhotochemistryChemistryCopolymerOrganic chemistryPhysicsPolymerOpticsComposite materialLuminescence and Fluorescent MaterialsSupramolecular Self-Assembly in MaterialsMolecular Sensors and Ion Detection
Color-tunable single-fluorophore supramolecular system with assembly-encoded emission | Litcius