Synthesis and self-assembly of CO2-responsive dendronized triblock copolymersElectronic supplementary information (ESI) available: 1H NMR spectra of macromonomers 3 and 4, polymer POEGMA, POEGMA-b-P(Gn) and POEGMA-b-P(Gn)-b-PDEAEMA, kinetic plot for RAFT polymerization of OEGMA. See DOI: 10.1039/c5py00868a

Synthesis and self-assembly of CO2-responsive dendronized triblock copolymersElectronic supplementary information (ESI) available: 1H NMR spectra of macromonomers 3 and 4, polymer POEGMA, POEGMA-b-P(Gn) and POEGMA-b-P(Gn)-b-PDEAEMA, kinetic plot for RAFT polymerization of OEGMA. See DOI: 10.1039/c5py00868a

Stimuli-responsive morphology evolution of polymeric self-assemblies may serve as a model to promote the understanding of cellular shape transformation. Generally, the original morphology of these self-assemblies can be obtained through delicate regulation of the ratio of hydrophobic/hydrophilic pol...

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Hauptverfasser: Huo, Meng, Ye, Qiquan, Che, Hailong, Sun, Mengzhen, Yuan, Jinying, Wei, Yen
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Sun, Mengzhen
Yuan, Jinying
Wei, Yen
description Stimuli-responsive morphology evolution of polymeric self-assemblies may serve as a model to promote the understanding of cellular shape transformation. Generally, the original morphology of these self-assemblies can be obtained through delicate regulation of the ratio of hydrophobic/hydrophilic polymer chains. Regretfully, less attention has been paid to the influence of chain "thickness" on the self-assembly and stimuli-responsiveness. In this article, CO 2 -responsive dendronized triblock copolymers POEGMA- b -P(G n )- b -PDEAEMA ( n = 1, 2) with Fréchet-type poly(aryl ether) as the dendron (G n ) were synthesized by RAFT polymerization, and the dendronized block was designed to allow the chain "thickness" tunable. We found that the generation of dendrons, the type of common solvent, and CO 2 -stimulus all contributed to the self-assembly of these triblock copolymers. Micelles with different sizes could be obtained in both THF/H 2 O and DMF/H 2 O, except that POEGMA- b -P(G2)- b -PDEAEMA precipitated in THF/H 2 O. Upon CO 2 aeration, POEGMA- b -P(G1)- b -PDEAEMA micelles in THF/H 2 O disrupted into smaller ones while in DMF/H 2 O they swelled slightly. Micelles formed in DMF/H 2 O of POEGMA- b -P(G2)- b -PDEAEMA were much larger than that of POEGMA- b -P(G1)- b -PDEAEMA. Similarly, POEGMA- b -P(G2)- b -PDEAEMA micelles swelled to larger micelles upon CO 2 triggering. Considering the tunable thickness of the dendron block, these CO 2 -responsive dendronized polymers may add a new dimension in biomimetic morphology transformation. Dendronized amphiphilic block copolymers POEGMA- b -P(G n )- b -PDEAEMA were synthesized, and their self-assembly behavior could be regulated by the dendron generation, the type of common solvent, and CO 2 -stimulus.
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See DOI: 10.1039/c5py00868a</title><source>Royal Society Of Chemistry Journals 2008-</source><source>Alma/SFX Local Collection</source><creator>Huo, Meng ; Ye, Qiquan ; Che, Hailong ; Sun, Mengzhen ; Yuan, Jinying ; Wei, Yen</creator><creatorcontrib>Huo, Meng ; Ye, Qiquan ; Che, Hailong ; Sun, Mengzhen ; Yuan, Jinying ; Wei, Yen</creatorcontrib><description>Stimuli-responsive morphology evolution of polymeric self-assemblies may serve as a model to promote the understanding of cellular shape transformation. Generally, the original morphology of these self-assemblies can be obtained through delicate regulation of the ratio of hydrophobic/hydrophilic polymer chains. Regretfully, less attention has been paid to the influence of chain "thickness" on the self-assembly and stimuli-responsiveness. In this article, CO 2 -responsive dendronized triblock copolymers POEGMA- b -P(G n )- b -PDEAEMA ( n = 1, 2) with Fréchet-type poly(aryl ether) as the dendron (G n ) were synthesized by RAFT polymerization, and the dendronized block was designed to allow the chain "thickness" tunable. We found that the generation of dendrons, the type of common solvent, and CO 2 -stimulus all contributed to the self-assembly of these triblock copolymers. Micelles with different sizes could be obtained in both THF/H 2 O and DMF/H 2 O, except that POEGMA- b -P(G2)- b -PDEAEMA precipitated in THF/H 2 O. Upon CO 2 aeration, POEGMA- b -P(G1)- b -PDEAEMA micelles in THF/H 2 O disrupted into smaller ones while in DMF/H 2 O they swelled slightly. Micelles formed in DMF/H 2 O of POEGMA- b -P(G2)- b -PDEAEMA were much larger than that of POEGMA- b -P(G1)- b -PDEAEMA. Similarly, POEGMA- b -P(G2)- b -PDEAEMA micelles swelled to larger micelles upon CO 2 triggering. Considering the tunable thickness of the dendron block, these CO 2 -responsive dendronized polymers may add a new dimension in biomimetic morphology transformation. 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Micelles with different sizes could be obtained in both THF/H 2 O and DMF/H 2 O, except that POEGMA- b -P(G2)- b -PDEAEMA precipitated in THF/H 2 O. Upon CO 2 aeration, POEGMA- b -P(G1)- b -PDEAEMA micelles in THF/H 2 O disrupted into smaller ones while in DMF/H 2 O they swelled slightly. Micelles formed in DMF/H 2 O of POEGMA- b -P(G2)- b -PDEAEMA were much larger than that of POEGMA- b -P(G1)- b -PDEAEMA. Similarly, POEGMA- b -P(G2)- b -PDEAEMA micelles swelled to larger micelles upon CO 2 triggering. Considering the tunable thickness of the dendron block, these CO 2 -responsive dendronized polymers may add a new dimension in biomimetic morphology transformation. 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Dendronized amphiphilic block copolymers POEGMA- b -P(G n )- b -PDEAEMA were synthesized, and their self-assembly behavior could be regulated by the dendron generation, the type of common solvent, and CO 2 -stimulus.</abstract><doi>10.1039/c5py00868a</doi><tpages>9</tpages></addata></record>
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title Synthesis and self-assembly of CO2-responsive dendronized triblock copolymersElectronic supplementary information (ESI) available: 1H NMR spectra of macromonomers 3 and 4, polymer POEGMA, POEGMA-b-P(Gn) and POEGMA-b-P(Gn)-b-PDEAEMA, kinetic plot for RAFT polymerization of OEGMA. See DOI: 10.1039/c5py00868a
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