Tunable Photoluminescence Including White‐Light Emission Based on Noncovalent Interaction‐Locked N,N′‐Disubstituted Dihydrodibenzo[a,c]phenazines

Utilizing supramolecular assembling system to achieve tunable photoluminescence emission has become an important method for the development of light‐emitting materials, which could bring out intriguing photophysical properties out of the luminophores themselves without a demanding design and tedious...

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Veröffentlicht in:	Advanced optical materials 2018-06, Vol.6 (12), p.n/a
Hauptverfasser:	Wang, Jie, Yao, Xuyang, Liu, Yang, Zhou, Haitao, Chen, Wei, Sun, Guangchen, Su, Jianhua, Ma, Xiang, Tian, He
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Sprache:	eng
Schlagworte:	Chemical bonds Chemical synthesis Emissions control Fluorescence Hydrophobicity Light emission Materials science Molecular chains Optics Organic chemistry phenazines Photoluminescence sulfonatocalixarene supramolecular assembly vibration‐induced emission
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creator	Wang, Jie Yao, Xuyang Liu, Yang Zhou, Haitao Chen, Wei Sun, Guangchen Su, Jianhua Ma, Xiang Tian, He
description	Utilizing supramolecular assembling system to achieve tunable photoluminescence emission has become an important method for the development of light‐emitting materials, which could bring out intriguing photophysical properties out of the luminophores themselves without a demanding design and tedious chemical synthesis. In the last few years, vibration‐induced emission (VIE) molecules, with dual photoluminescence emissions and large Stokes shift, have shown their talent in generating tunable fluorescence and potential in fabricating novel light‐emitting materials. However, little attention has been devoted to explore the attractive properties of VIE molecules in supramolecular self‐assembling systems up to now. Herein, the first example of a supramolecular assembling system composed of a water‐soluble VIE molecule N,N′‐diphenyl‐dihydrodibenzo[a,c]phenazines derivative (DPAC‐AB) and bis‐p‐sulfonatocalix[4]arene (BSC4) is introduced. Based on noncovalent interactions including hydrophobic interaction and host–guest interaction between DPAC‐AB and BSC4, tunable fluorescence emissions from orange‐red to white (Commission Internationale de L'éclairage (CIE) coordinates (0.32, 0.37)) to blue are achieved by simple addition of different amounts of BSC4 to the solution of DPAC‐AB. Additionally, a competitive guest acetylcholine is utilized to recover the nearly orange‐red fluorescence emission. This strategy to efficiently control the emission of VIE molecules through supramolecular assembling based on reversible noncovalent interactions opens new avenues in developing tunable light‐emitting materials. The first example of a supramolecular assembling system with water‐soluble N,N′‐diphenyl‐dihydrodibenzo[a,c]phenazines derivative and bis‐p‐sulfonatocalix[4]arene is designed. Based on hydrophobic interaction and host–guest interaction, tunable fluorescent emission color from orange‐red to white (CIE coordinates (0.32, 0.37)) to blue can be obtained. Additionally, a common competitive guest is utilized to recover the fluorescent emission.
doi_str_mv	10.1002/adom.201800074
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Additionally, a competitive guest acetylcholine is utilized to recover the nearly orange‐red fluorescence emission. This strategy to efficiently control the emission of VIE molecules through supramolecular assembling based on reversible noncovalent interactions opens new avenues in developing tunable light‐emitting materials. The first example of a supramolecular assembling system with water‐soluble N,N′‐diphenyl‐dihydrodibenzo[a,c]phenazines derivative and bis‐p‐sulfonatocalix[4]arene is designed. Based on hydrophobic interaction and host–guest interaction, tunable fluorescent emission color from orange‐red to white (CIE coordinates (0.32, 0.37)) to blue can be obtained. 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subjects	Chemical bonds Chemical synthesis Emissions control Fluorescence Hydrophobicity Light emission Materials science Molecular chains Optics Organic chemistry phenazines Photoluminescence sulfonatocalixarene supramolecular assembly vibration‐induced emission
title	Tunable Photoluminescence Including White‐Light Emission Based on Noncovalent Interaction‐Locked N,N′‐Disubstituted Dihydrodibenzo[a,c]phenazines
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