Synthesis and characterization of novel resorcinarene‐centered amphiphilic star‐block copolymers consisting of eight ABA triblock arms by combination of ROP, ATRP, and click chemistry

Gou, Pengfei; Zhu, Weipu; Zhu, Ning; Shen, Zhiquan

doi:10.1002/pola.23371

Cited by 34 publications

(34 citation statements)

References 66 publications

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“…These ABA star-triblock copolymers were prepared by a combination of ROP, ATRP, and click chemistry. 105 Unfortunately, contrary to the authors' expectations, self-assembly of this triblock copolymer star in aqueous solution did not lead to any unique new morphology but spherical micelles.…”

Section: Chemical Reviewsmentioning

confidence: 70%

Star Polymers

et al. 2016

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Recent advances in controlled/living polymerization techniques and highly efficient coupling chemistries have enabled the facile synthesis of complex polymer architectures with controlled dimensions and functionality. As an example, star polymers consist of many linear polymers fused at a central point with a large number of chain end functionalities. Owing to this exclusive structure, star polymers exhibit some remarkable characteristics and properties unattainable by simple linear polymers. Hence, they constitute a unique class of technologically important nanomaterials that have been utilized or are currently under audition for many applications in life sciences and nanotechnologies. This article first provides a comprehensive summary of synthetic strategies towards star polymers, then reviews the latest developments in the synthesis and characterization methods of star macromolecules, and lastly outlines emerging applications and current commercial use of star-shaped polymers. The aim of this work is to promote star polymer research, generate new avenues of scientific investigation, and provide contemporary perspectives on chemical innovation that may expedite the commercialization of new star nanomaterials. We envision in the not-too-distant future star polymers will play an increasingly important role in materials science and nanotechnology in both academic and industrial settings.

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Section: Chemical Reviewsmentioning

confidence: 70%

Star Polymers

et al. 2016

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“…Previously, the micelles based on diblock copolymers combining PCL and PAA were stabilized by cross‐linking PAA shell, and then PCL core was selectively degraded to generate nanoscale cage‐like membranes . In other case the amphiphilic eight‐arm star triblock copolymers with PCL‐ b ‐PAA‐ b ‐PCL arms and resorcinarene core were self‐assembled into spherical micelles . However, up to now the studies on PCL/P(M)AA micelles used for drug loading and release have not been reported.…”

Section: Introductionmentioning

confidence: 99%

Self‐assembling Linear and Star Shaped Poly(ϵ‐caprolactone)/poly[(meth)acrylic acid] Block Copolymers as Carriers of Indomethacin and Quercetin

Bury

Prez

Neugebauer

2013

Macromolecular Bioscience

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A series of amphiphilic linear AB, BAB and star shaped (AB) 3 block copolymers of PCL/P(M)AA have been used for preparation of nanoparticles and drug entrapment. Both the topology of the copolymer and the type of hydrophilic segment are much influencing the critical aggregation concentration (CAC). Two different model drugs, i.e. indomethacin and quercetin, have been employed to investigate drug-copolymer interactions. The size of nanoparticles determined by DLS is less than 160 nm and increases with the amount of drug entrapped in their hydrophobic interior. Drug loading experiments with the nanoparticles based on PAA block copolymers demonstrate a higher efficiency for the star structure, whereas the PMAA star copolymer presents the lowest entrapment ability. The release properties of polymeric self-assemblies being potential candidates for new nanocarriers in drug delivery systems have been studied at room temperature and 37 C in phosphate buffer solutions with pH equal to 5 and 7.4. The kinetic profiles show a strong relation to the copolymer's topology, indicating the lowest release rates from the star based superstructures, while the PMAA particles are less stable than those containing PAA segment(s).The drug release could be controlled by changing the pH value, whereas the influence of temperature is minor.3

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“…Amphiphilic polymers have attracted considerable interests in past decades for their unique phase behavior in aqueous medium and potential applications as carriers for genes and hydrophobic drugs 11–14. Poly(ε‐caprolactone) (PCL), a Food and Drug Administration (FDA) approved polyester, has been widely used as the hydrophobic segment in amphiphilic polymers as synthetic biomaterial or controlled drug release matrix 15–24. However, using PCL as backbone to prepare amphiphilic graft polymer is difficult because of the lack of functional groups on PCL chain.…”

Section: Introductionmentioning

confidence: 99%

Effect of ATH content on electrical and aging properties of EVA and silicone rubber blends for high voltage insulator compound

Pradeep

Vasudev

Reddy

et al. 2007

J of Applied Polymer Sci

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The effect of trihydrated alumina (Al 2 O 3 , 3H 2 O) (ATH) filler in ethylene-vinyl acetate copolymer (EVA) and silicone rubber blends was investigated by performing a series of laboratory experiments to simulate different natural aging conditions. Samples with varying ATH content in a 50-50 blend of EVA and polydimethylsiloxane (PDMS) (silicone rubber, MQ) were tested to investigate the tracking resistance, resistance to UV radiation, corona, heat, and water immersion. Changes in surface resistivity, volume resistivity, and hydrophobic characteristics were evaluated for different compounds having ATH content. These exercises were mainly carried out to optimize the filler level. In immersed condition the water absorption increases with ATH content. The recovery of hydrophobicity, after aging by heat, is appreciable at higher ATH levels, than at lower ATH levels. The tracking and erosion resistance decrease as ATH content increases. When compounds containing different ATH content were subjected to corona treatment, the samples with higher ATH levels exhibited better results. All samples changed their color to a darker shade and there was an increase in the hydrophobicity, when subjected to UV radiation.

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Synthesis and characterization of novel resorcinarene‐centered amphiphilic star‐block copolymers consisting of eight ABA triblock arms by combination of ROP, ATRP, and click chemistry

Cited by 34 publications

References 66 publications

Star Polymers

Star Polymers

Self‐assembling Linear and Star Shaped Poly(ϵ‐caprolactone)/poly[(meth)acrylic acid] Block Copolymers as Carriers of Indomethacin and Quercetin

Effect of ATH content on electrical and aging properties of EVA and silicone rubber blends for high voltage insulator compound

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