Crystallization-promoted emission enhancement of poly(<scp>l</scp>-lactide) containing a fluorescent salicylideneazine center with aggregation-enhanced emission properties

Hsiao, Tai-Shen; Huang, Po-Chiao; Lin, Liyang; Yang, Deng-Jie; Hong, Jin‐Long

doi:10.1039/c4py01774a

Cited by 13 publications

(13 citation statements)

References 51 publications

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“…These polymeric micelles are formed through self-assembly of amphiphilic block copolymers in aqueous solution. [133][134][135][136][137][138][139][140][141] In 2010, Jen et al reported a non-covalent method for the coencapsulation of two AIE dyes (1,1,2,3,4,5-hexaphenylsilole (HPS) and/or bis(4-(N-(1-naphthyl) phenylamino)-phenyl)fumaronitrile (NPAFN)) into three amphiphilic block copolymers (Fig. 1).…”

Section: Self-assembly Of Aie Dyes and Amphiphilic Polymersmentioning

confidence: 99%

Polymeric AIE-based nanoprobes for biomedical applications: recent advances and perspectives

et al. 2015

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The development of polymeric luminescent nanomaterials for biomedical applications has recently attracted a large amount of attention due to the remarkable advantages of these materials compared with small organic dyes and fluorescent inorganic nanomaterials. Among these polymeric luminescent nanomaterials, polymeric luminescent nanomaterials based on dyes with aggregation-induced emission (AIE) properties should be of great research interest due to their unique AIE properties, the designability of polymers and their multifunctional potential. In this review, the recent advances in the design and biomedical applications of polymeric luminescent nanomaterials based on AIE dyes is summarized. Various design strategies for incorporation of these AIE dyes into polymeric systems are included. The potential biomedical applications such as biological imaging, and use in biological sensors and theranostic systems of these polymeric AIE-based nanomaterials have also been highlighted. We trust this review will attract significant interest from scientists from different research fields in chemistry, materials, biology and interdisciplinary areas.

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Section: Self-assembly Of Aie Dyes and Amphiphilic Polymersmentioning

confidence: 99%

Polymeric AIE-based nanoprobes for biomedical applications: recent advances and perspectives

et al. 2015

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“…50–55 Because of its intrinsic properties, many fluorescent molecules have been incorporated into PLLA to afford unique functionalities. 22,56–62 Hsiao et al showed that the crystallization of PLLA chains determines the AIE properties of 1,2-bis(2,4-dihydroxybenzylidene)hydrazine after incorporation into the backbone of PLLA. 57 Zhao et al incorporated TPE into the PLLA chains by living chain transfer polymerization and demonstrated that these polymers exhibit unique emission properties in the aggregated states.…”

Section: Introductionmentioning

confidence: 99%

“…22,56–62 Hsiao et al showed that the crystallization of PLLA chains determines the AIE properties of 1,2-bis(2,4-dihydroxybenzylidene)hydrazine after incorporation into the backbone of PLLA. 57 Zhao et al incorporated TPE into the PLLA chains by living chain transfer polymerization and demonstrated that these polymers exhibit unique emission properties in the aggregated states. 22 They have demonstrated that star-shaped PLLA (SSPLLA) was non-luminescent in good solvents like tetrahydrofuran (THF) and emits strongly when a poor solvent (water) was added due to aggregate formation.…”

Section: Introductionmentioning

confidence: 99%

Poly(l-lactide)s with tetraphenylethylene: role of polymer chain packing in aggregation-induced emission behavior of tetraphenylethylene

Gandu

Gowd

2022

Polym. Chem.

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“…The incorporation of chromophores into the insulating thermoplastic polymer by the chemical method can be categorized into the following groups: chromophores as part of the backbone of polymer chains, − polymer chains end-capped with chromophores, , and chromophores as core molecules in the star-shaped polymer. − The major advantage of these methods is the easy fabrication of thin solid films and devices by spin-casting or inkjet printing under mild conditions. Recently, a few saturated polymers containing chromophores are prepared and tested for their photophysical properties. ,, Besides these achievements, the use of biodegradable and biocompatible polymers attracted the scientific and industrial interest because these materials can find applications as the bioprobes of real-time imaging.…”

Section: Introductionmentioning

confidence: 99%

Star-Shaped Poly(l-lactide) with a Dipyridamole Core: Role of Polymer Chain Packing on Induced Circular Dichroism and Photophysical Properties of Dipyridamole

Nagarajan

Gowd

2017

Macromolecules

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The dipyridamole is emissive in the solution state; however, the emission is weakened in the solid state due to the aggregation-caused quenching. The aggregation of dipyridamole can be prevented by synthesizing star-shaped poly(l-lactide) (SSPLLA) using dipyridamole core. During crystallization of the polymer, chromophore molecules were expelled out of crystalline lamellae and reside at the interface of crystalline and amorphous phase. The helical chains of poly(l-lactide) (PLLA) can induce the helicity to chromophore moieties during the crystallization of PLLA. The photoluminescence (PL) quantum yield measured for the semicrystalline polymer is 46%. When the polymer is melt-quenched to amorphous, PLLA chains remain in the random conformation, and no induced circular dichroism of dipyridamole was found. In the amorphous polymer, the dipyridamole molecules are scattered and show higher PL quantum yield ∼55%. Transparency of the polymer and the disruption of π-stacking of chromophore resulted in the higher quantum yield in the amorphous star-shaped PLLA. These results suggest that the morphology and the polymer chain packing could play an important role in determining the solid-state optical properties of chromophores. In addition, a detailed investigation is carried out to understand the relationship between chain conformation, the growth of crystal lamellae, and superstructure of star-shaped PLLA.

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Crystallization-promoted emission enhancement of poly(l-lactide) containing a fluorescent salicylideneazine center with aggregation-enhanced emission properties

Cited by 13 publications

References 51 publications

Polymeric AIE-based nanoprobes for biomedical applications: recent advances and perspectives

Polymeric AIE-based nanoprobes for biomedical applications: recent advances and perspectives

Poly(l-lactide)s with tetraphenylethylene: role of polymer chain packing in aggregation-induced emission behavior of tetraphenylethylene

Star-Shaped Poly(l-lactide) with a Dipyridamole Core: Role of Polymer Chain Packing on Induced Circular Dichroism and Photophysical Properties of Dipyridamole

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