Interfacial and tensile properties improvement of composites using a modified matrix with epoxy‐terminated hyperbranched polyether sulfone

Zhu, Tianyu; Lü, Chunxiang; Lu, Xiaoxuan; Zhi, Jieying; Song, Yingjun

doi:10.1002/app.53169

Cited by 1 publication

(1 citation statement)

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“…As for dendritic polymers, core-based, randomly hyperbranched polymers are potentially attractive and the architectural features are responsible for the extensive proposed applications of these advanced materials [ 1 , 2 ]. In general, hyperbranched polymers are divided into four parts including hyperbranched polyphenyls [ 3 ], hyperbranched polyethers [ 4–6 ], hyperbranched polyamides [ 7–9 ] and hyperbranched polyesters [ 10–12 ]. Structurally, hyperbranched polyesters have a large number of degradable ester bonds in the main chain and have good biodegradability.…”

Section: Introductionmentioning

confidence: 99%

Progress in synthesis, modification, characterization and applications of hyperbranched polyphosphate polyesters

Hao,

Guo,

Zhu

et al. 2024

Designed Monomers and Polymers

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Hyperbranched polyphosphate polyesters (HPPs) as a special class of hyperbranched polymers have attracted increased interest and have been intensively studied, because of peculiar structures, excellent biocompatibility, flexibility in physicochemical properties, biodegradability, water soluble, thermal stability, and mechanical properties. HPPs can be divided into phosphates as monomers and phosphates as end groups. In this article, the classification, general synthesis, modifications, and applications of HPP are reviewed. In addition, recent developments in the application of HPP are described, such as modified or functionalized by end capping and hypergrafting to improve the performances in polymer blends, coatings, flame retardant, leather. Furthermore, the modifications and application of HPPs in biomedical materials, such as drug delivery and bone regeneration were discussed. In summary, the hyperbranched polymer enlarges its application range and improves its application performance compared with conventional polymer. In the future, more new HPPs composite materials will be developed through hyperbranched technique. This review of HPPs will provide useful theoretical basis and technical support for the development of new hyperbranched polymer material.

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