pH‐responsive amine‐based fluorescent polymers with on–off switchable and concentration‐dependent fluorescence behaviors

Jiang, Qimin; Zhao, Liang; Shi, Lingyue; Guan, Shuyi; Huang, Wenyan; Xue, Xiaoqiang; Yang, Hongjun; Jiang, Li; Jiang, Bibiao

doi:10.1002/pol.20220475

Cited by 3 publications

(5 citation statements)

References 62 publications

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“…We performed experimental analyses and validation to further identify the exact fluorophores and elucidate the color-tunable luminescence mechanism of PVAEEs. Three PAEEs ( PAEE1 , PAEE2 , and PAEE3 ) containing only aliphatic tertiary amine groups were synthesized via the t -BuP 2 -catalyzed oxa-Michael addition polymerization of MDEA and diacrylates with different carbon chain lengths at room temperature, 67 and their PL properties were compared with those of the PVAEEs. As expected, all the PAEEs exhibited fluorescence emission, and the red-shifted emission spectra were observed with a decrease in the carbon chain length of the diacrylates (Fig.…”

Section: Resultsmentioning

confidence: 99%

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Hydroxyl–yne click polymerization: a facile strategy toward poly(vinyl amino ether ester)s with color-tunable luminescence

et al. 2023

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Section: Resultsmentioning

confidence: 99%

“…The obtained PAEEs showed low cytotoxicity and bright cell imaging. 66,67 However, this polymerization requires the use of a phosphazene base as a catalyst. Moreover, similar to most unconventional fluorescent polymers, PAEEs exhibit fluorescence in the blue region.…”

Section: Introductionmentioning

confidence: 99%

Hydroxyl–yne click polymerization: a facile strategy toward poly(vinyl amino ether ester)s with color-tunable luminescence

et al. 2023

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“…Both hb ‐ and linear‐PAEEs emitted much stronger fluorescence than those of linear and hyperbranched poly(ester ether) without aliphatic tertiary amine, and hyperbranched polymers exhibited much brighter emission than that of linear ones, suggesting that both tertiary amines and hyperbranched structures were the key factors for the fluorescence of hb ‐PAEEs (Figure 15a) [101]. The hb ‐PAEEs also showed good water solubility, specific Fe 3+ ion detection, good biocompatibility, bright cell imaging, and pH‐sensitivity with reversible “on–off” switching fluorescence [102].…”

Section: Polymerization‐induced Emission Without Aromatic Ringsmentioning

confidence: 99%

“…Preparation of luminescent (a) hyperbranched poly(amino ether ester)s ( hb ‐PAEEs) and (b) poly(vinyl amino ether ester)s (PVAEEs) ((a) adapted with permission from Wiley [102]).…”

Section: Polymerization‐induced Emission Without Aromatic Ringsmentioning

confidence: 99%

Recent progress on polymerization‐induced emission

Li,

Feng,

Wang

et al. 2023

Luminescence

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The aggregate luminescence behaviors of polymeric luminescent materials have been attracting great attention. However, the importance of the polymerization process on luminescence, namely, polymerization‐induced emission (PIE), has rarely been overviewed. In this review, recent advances in polymerization with PIE effects are summarized, including PIE with aromatic rings based on one‐/two‐/multi‐component polymerizations, and PIE without aromatic rings according to disparate mechanisms of polymerizations. Typical examples are selected to elaborate the basic design principles, as well as the properties and potential applications of the luminous polymers. Moreover, the challenges and perspectives in this area are also discussed.

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“…[ 241,443 ] The most employed acidic molecules are those made of carboxylic acids, phosphoric acids, sulfonic acids, or boronic acids. [ 444 ] Otherwise, main basic molecules are those containing in their skeleton N‐rich groups with nonbonding electron pairs, such as amines, [ 445 ] pyridines, [ 446 ] imidazoles, [ 447 ] piperazines, [ 448 ] hydrazones, [ 449 ] pyrrolidines, [ 450 ] and morpholines. [ 451 ] In addition, molecules containing more than one pH‐responsive group (e.g., amino acids like tryptophan, aniline, etc.)…”

Section: Stimuli‐responsive Molecules Triggered By Different External...mentioning

confidence: 99%

Rational Design of Stimuli‐Responsive Inorganic 2D Materials via Molecular Engineering: Toward Molecule‐Programmable Nanoelectronics

Muñoz

2023

Advanced Materials

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The ability of electronic devices to act as switches makes digital information processing possible. Succeeding graphene, emerging Inorganic 2D Materials (i2DMs) have been identified as alternative 2D Materials to harbor a variety of active molecular components to move the current silicon‐based semiconductor technology forward to a post‐Moore era based on molecule‐based information processing components. In this regard, i2DMs benefits not only for their prominent physiochemical properties (e.g., the existence of band gap, contrary to graphene), but also their high surface‐to‐volume ratio rich in reactive sites (functionalization capability). Nonetheless, since this field is still in an early stage, having knowledge of both i) the different strategies for molecularly functionalizing the current library of i2DMs, and ii) the different types of active molecular components is a sine qua non condition for a rational design of stimuli‐responsive i2DMs capable of performing logical binary operations at the molecular level. Consequently, this Review provides a comprehensive tutorial for covalently anchoring ad hoc molecular components —as active units triggered by different external inputs— onto pivotal i2DMs to assess their role in the expanding field of Molecule‐Programmable Nanoelectronics for electrically monitoring bistable molecular switches. Limitations, challenges, and future perspectives of this emerging field which crosses materials chemistry with computation are critically discussed.This article is protected by copyright. All rights reserved

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pH‐responsive amine‐based fluorescent polymers with on–off switchable and concentration‐dependent fluorescence behaviors

Cited by 3 publications

References 62 publications

Hydroxyl–yne click polymerization: a facile strategy toward poly(vinyl amino ether ester)s with color-tunable luminescence

Hydroxyl–yne click polymerization: a facile strategy toward poly(vinyl amino ether ester)s with color-tunable luminescence

Recent progress on polymerization‐induced emission

Rational Design of Stimuli‐Responsive Inorganic 2D Materials via Molecular Engineering: Toward Molecule‐Programmable Nanoelectronics

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