Robust Organoalkoxysilanes as Red Unconventional Fluorescent Platform

Zuo, Yujing; Yang, Tingxin; Gou, Zhiming; Tian, Minggang; Dong, Baoli; Lin, Weiying

doi:10.1002/adfm.201910536

Cited by 14 publications

(10 citation statements)

References 20 publications

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“…Apart from conventional fluorescent molecules composing of aryl groups, in recent years, unconventional luminescent siloxane molecules that do not contain any of the conjugated systems have also received much attention and become an important branch in this field. In unconventional fluorescent molecules, electron-rich atoms such as sulfur and nitrogen are present and interact with silicon atom [ 38 , 39 ]. In addition, the flexible Si-O bond is conducive to fluorescent emission [ 40 ].…”

Section: Classification Of Organosilicon Fluorescent Materialsmentioning

confidence: 99%

“…Most unconventional luminescent siloxane molecules have a low emission wavelength, which is mainly located in UV, blue and green regions. Zuo et al [ 38 ] found Si–O bridged organoalkoxysilanes were capable of emitting unexpected red fluorescence (SiORed-1–6). Inspired by the desired red emission, SiO-Red-7 was further constructed and applied to detect NO in lysosomes and in vivo accompanied by a blue fluorescence quenching and a red fluorescence enhancement ( Figure 5 b).…”

Section: Classification Of Organosilicon Fluorescent Materialsmentioning

confidence: 99%

“…Notably, Zuo et al found that organoalkoxysilanes emitted red unconventional fluorescence and were successfully applied to nitric oxide detection in cells, expanding the fluorescent material design strategy [ 38 ]. This work inspired researchers to deeply exploit the special optical properties of organosilicon materials.…”

Section: Applicationsmentioning

confidence: 99%

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Organosilicon Fluorescent Materials

2023

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In the past few decades, organosilicon fluorescent materials have attracted great attention in the field of fluorescent materials not only due to their abundant and flexible structures, but also because of their intriguing fluorescence properties, distinct from silicon-free fluorescent materials. Considering their unique properties, they have found broad application prospects in the fields of chemosensor, bioimaging, light-emitting diodes, etc. However, a comprehensive review focusing on this field, from the perspective of their catalogs and applications, is still absent. In this review, organosilicon fluorescent materials are classified into two main types, organosilicon small molecules and polymers. The former includes fluorescent aryl silanes and siloxanes, and the latter are mainly fluorescent polysiloxanes. Their synthesis and applications are summarized. In particular, the function of silicon atoms in fluorescent materials is introduced. Finally, the development trend of organosilicon fluorescent materials is prospected.

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Section: Classification Of Organosilicon Fluorescent Materialsmentioning

confidence: 99%

Section: Classification Of Organosilicon Fluorescent Materialsmentioning

confidence: 99%

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Organosilicon Fluorescent Materials

2023

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“…Most importantly, the resulting AMI products exhibit very strong fluorescence in both the solution state and aggregate state. Because the AMI possesses only a small heterocyclic ring without any typical aromatic moiety, such unusual high luminescence can be regarded as nontraditional intrinsic luminescence (NTIL). − In this aspect, some heteroatom-rich natural products and synthetic polymers without conjugated aromatic structures have been reported to show NTIL. − Despite such intriguing properties of the resulting products obtained by this unique multicomponent tandem reaction, few efforts have been devoted to facilitate it into a powerful tool for the synthesis of heterocyclic polymers.…”

Section: Introductionmentioning

confidence: 99%

Catalyst-Free Multicomponent Tandem Polymerizations of Alkyne and Amines toward Nontraditional Intrinsic Luminescent Poly(aminomaleimide)s

Zhang

et al. 2020

Macromolecules

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The development of a facile and efficient polymerization method to prepare polymers with unique nontraditional intrinsic luminescent (NTIL) properties is of vital importance and highly desired. In this work, a multicomponent tandem polymerization of alkyne and amines for the efficient preparation of NTIL poly(aminomaleimide)s (PAMIs) was established. Soluble and thermally stable PAMIs with acceptable molecular weights and welldefined structures are obtained in excellent yields after optimization. Sequence-controlled PAMIs with well-defined structures are obtained by using secondary amines for the amino−yne click reaction. The resulting amino-terminated PAMIs can be used as macromonomers for further polymerization. The PAMIs exhibit NTIL properties, and their emission in dimethyl sulfoxide/H 2 O mixtures can be tailored by changing the length of hydrophobic linker. Additionally, they exhibit low cytotoxicity and can be used as fluorescent bioprobes for bioimaging applications. Considering the mild polymerization conditions, readily available monomers, and excellent product performance, the present multicomponent tandem polymerizations opens up a new avenue to prepare functional polymeric materials with NTIL properties.

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“…[ 6,7 ] In comparison with conventional fluorescent polymers, the unconventional fluorescence polymers without traditional chromophores have attracted a great deal of interest because of their facile preparation, excellent water solubility and good biocompatibility. [ 8–22 ] Among of unconventional fluorescent compounds, tertiary amine chromophore polymers with intrinsic fluorescence and stimulus responsiveness, which have proved to be an effective biomedical application materials and been extensively studied. [ 23–28 ]…”

Section: Introductionmentioning

confidence: 99%

pH and thermo responsive aliphatic tertiary amine chromophore hyperbranched poly(amino ether ester)s from oxa‐Michael addition polymerization

Jiang

Zhang

et al. 2020

Journal of Polymer Science

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In this research, we developed a novel and facile strategy to prepare aliphatic tertiary amine chromophore hyperbranched poly(amino ether ester)s with pH and thermo responsiveness via phosphazene base (t-BuP 2) catalyzed oxa-Michael addition polymerization of triethanolamine with ethylene glycol diacrylate at room temperature. UV-vis and fluorescence analyses results showed that the tertiary amine at branching point for hyperbranched poly(amino ether ester)s is very important to retain strong blue fluorescence of tertiary amine chromophore. Moreover, the hyperbranched poly(amino ether ester)s exhibit an aggregation caused quenching (ACQ) fluorescence, solvent induced red-shifted emission, molecular weight, and temperature dependent emission characters. More interestingly, the hyperbranched poly(amino ether ester)s show extreme acid induced quenching fluorescence phenomenon, and also display good water solubility, specific recognition of Fe 3+ ion, low cytotoxicity, and bright cell imaging, which could serve as a microenvironmentresponding fluorescent probe for application in chemical sensing, cell imaging, drug delivery, or disease diagnostics. This research provides a versatile method for the preparation of stimuli-responsive aliphatic tertiary amine chromophore polymers, and supplies ideas for researchers to explore other unconventional fluorescent polymers for application. K E Y W O R D S aliphatic tertiary amine chromophore, oxa-Michael addition polymerization, phosphazene base, hyperbranched poly(amino ether ester)s, stimulus responsiveness

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Robust Organoalkoxysilanes as Red Unconventional Fluorescent Platform

Cited by 14 publications

References 20 publications

Organosilicon Fluorescent Materials

Organosilicon Fluorescent Materials

Catalyst-Free Multicomponent Tandem Polymerizations of Alkyne and Amines toward Nontraditional Intrinsic Luminescent Poly(aminomaleimide)s

pH and thermo responsive aliphatic tertiary amine chromophore hyperbranched poly(amino ether ester)s from oxa‐Michael addition polymerization

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