Micellization and gelatinization in aqueous media of pH- and thermo-responsive amphiphilic ABC (PMMA82-b-PDMAEMA150-b-PNIPAM65) triblock copolymer synthesized by consecutive RAFT polymerization

Huang, Ye; Yong, Ping; Yan, Chao; Gao, Yuting; Xu, Weixiong; Lv, Yongkang; Yang, Liming; Reis, Rui L.; Pirraco, Rogério P.; Chen, Jie

doi:10.1039/c7ra04351a

Cited by 37 publications

(35 citation statements)

References 62 publications

(55 reference statements)

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“…PDMAEMA-based copolymers usually have an LCST that is evident even when aggregated as micelles. Above this temperature, corona dehydration can lead to load release, micelle aggregation/precipitation, or both [19]. As temperature effects are also affected by medium acidity, pH can be used together with the temperature for controlling drug release [20].…”

Section: Introductionmentioning

confidence: 99%

Characterization of PMMA-b-PDMAEMA aggregates in aqueous solutions

et al. 2019

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Diblock amphiphilic copolymers form aggregates in some solvents. Such aggregates exhibit different morphologies, depending mainly on the polar/apolar block ratios. Aggregation of copolymers with polar block excess leads to micelle-like aggregates, known as polymeric micelles, which can be used as vehicles for drug and gene delivery, water decontamination, and catalysis. Here, we synthesized by RAFT polymerization three different polymers namely [dimethyl 2-(aminoethyl) methacrylate] (PDMAEMA), poly (methyl methacrylate) (PMMA) copolymers, and PDMAEMA-block-PMMA and characterized their aggregates by NMR spectroscopy and pH titrations. We investigated correlations between their chemical structure, aggregation behavior, protonation degree, and chain conformation in the corona. Decreased amine protonation in the copolymers reduced the electrostatic repulsion, and the apparent pK a of the amino groups approached that of isolated amine. These effects increased compactness and sizes of the polymers and their aggregates at higher pH as reflected by the increased NMR line widths.

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Section: Introductionmentioning

confidence: 99%

Characterization of PMMA-b-PDMAEMA aggregates in aqueous solutions

et al. 2019

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“…Figure 1 presents the spectra of unmodified PA fibers and PMMA or PS modified fibers. The presence of the strong peak at 1735 cm −1 is assigned to the occurrence of an ester carbonyl group from poly(methyl methacrylate) [37] (Figure 1a). In the case of PS, numerous peaks characteristic for PS overlap with the PA support (i.e., the peak at the range of 1600 cm −1 ) associated with the presence of aromatic protons of styrene units, except the weak peak at 3100-3000 cm −1 which is also associated with aromatic protons of styrene [38] (Figure 1b).…”

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Renewable Fabric Surface-Initiated ATRP Polymerizations: Towards Mixed Polymer Brushes

et al. 2020

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A totally new approach in the synthesis of mixed polymer brushes tethered on polyamide (PA) surfaces is presented herein. As a proof of concept, two types of homopolymers were synthesized in sequential surface-initiated atom transfer radical polymerization (SI-ATRP) reactions: poly(methyl methacrylate)/poly((2-dimethylamino)ethyl methacrylate) and polystyrene /poly((2-dimethylamino)ethyl methacrylate). The ATRP initiator was immobilized on the surface through PA chain-end groups in two subsequent steps, separated by homo-polymerizations. The amount of the PA chains’ end groups available on the modified surface was tuned by the thermal rearrangement of the surface.

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“…by pH control [ 96 ] Sorption control of water vapour of e.g. electro-responsive polypyrole film [ 98 ] Control of solubility, often by changing temperature [ 99 ] Changing the nature of a complex molecule from hydrophilic to hydrophobic, also enabling control over the micellization process [ 97 ] Changing the self-assembly, e.g. CO 2 and redox-stimulated transformation of entangled worms to rodlike micelles [ 85 ] Changing the orientation of the polymers, e.g.…”

Section: Active Control In Other Fieldsmentioning

confidence: 99%

Active control of properties of concrete: a (p)review

Schutter

Lesage

2018

Mater Struct

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Concrete properties to a large extent depend on mix design and processing, currently leaving only limited options to actively modify concrete properties during or after casting. This paper gives a (p)review on a more advanced active control of properties of concrete, based on the application of external signals to trigger an intended response in the material, either in fresh or hardened state. Current practices in concrete industry that could be considered as active control are briefly summarized. More advanced active control mechanisms as studied in other fields, e.g. based on hydrogels and other functional polymers, are reviewed and some principles are listed. A specific focus is further given on potential methods for active rheology control. Based on the concepts developed in other fields, substantial progress could be made in order to achieve active control of fresh and hardened concrete properties. However, several challenges remain, like the stability and functioning of the responsive material in a cementitious environment, the applicability of the control signal in a cementitious material, and the economy, logistics and safety of a control system on a construction site or in precast industry. Finding solutions to these challenges will lead to marvelous opportunities in general, and for 3D and even 4D printing more particularly.

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Micellization and gelatinization in aqueous media of pH- and thermo-responsive amphiphilic ABC (PMMA₈₂-b-PDMAEMA₁₅₀-b-PNIPAM₆₅) triblock copolymer synthesized by consecutive RAFT polymerization

Cited by 37 publications

References 62 publications

Characterization of PMMA-b-PDMAEMA aggregates in aqueous solutions

Characterization of PMMA-b-PDMAEMA aggregates in aqueous solutions

Renewable Fabric Surface-Initiated ATRP Polymerizations: Towards Mixed Polymer Brushes

Active control of properties of concrete: a (p)review

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