Synergistic enhancement of toughness and flame retardation for cyanate ester composites through hyperbranched polyborosiloxane

Wei, Bin; Liu, Rui; Qi, Guoquan; Feng, Guangpeng; Li, Zheng; Zhang, Yifeng; Yan, Hongxia

doi:10.1002/vnl.22102

Vinyl Additive Technology

2024

DOI: 10.1002/vnl.22102

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Synergistic enhancement of toughness and flame retardation for cyanate ester composites through hyperbranched polyborosiloxane

Bin Wei,

Rui Liu,

Guoquan Qi

et al.

Abstract: Excellent flame resistance is supposed to be taken into consideration for electronic packaging materials due to the spontaneous combustion of short circuits, except for good mechanical and dielectric properties. Herein, a hyperbranched polyborosiloxane (HPSiB) flame retardant was synthesized via a simple one‐pot transesterification as a multifunctional additive for cyanate ester (CE) resin. The HPSiB with many active terminals features good compatibility with the resin matrix, while catalyzing the curing react… Show more

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Design, Performance, and Mode of Action of Hyperbranched Fire Retardants: Advancement and Perspective

Hu,

Zhang,

Yuan

et al. 2024

ACS Appl. Polym. Mater.

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The fire hazard of polymers presents a remarkable threat to life and property. In response to this challenge, the pursuit of highly efficient and reliable flame retardants is of paramount significance. Hyperbranched oligomers/polymers, featuring specific and tailorable molecular architectures, demonstrate an intensive potential in imparting diverse polymer matrices with flame retardancy and other functionalities via flame-retardant-targeted structural design. Recently, numerous studies have reported the design and application of hyperbranched flame-retardant molecules, yet a progress-relevant comprehensive summary of the molecule design, fire properties, and mode of action of hyperbranched fire retardants is still lacking. In this case, this review summarizes the state-of-the-art research progress of hyperbranched fireretardant molecules or structures, concentrating on revealing the highly efficient design principle, structure−property relationship, and multifunctional reinforcement fundamentals. The review proceeds from various flame-retardant structural units such as phosphoruscontaining, phosphorus−nitrogen bond-containing borates, silicates, and triazines, accompanied by their synthesis routes, behavior, and flame-retardant mode of action in polymers. Also, the enhancement of multifunctionality such as heat resistance, transparency, and processability is specified. The review provides comprehensive guidance for a rational design of hyperbranched flame-retardant fire-fighting molecules with high efficiency, reliability, and multifunctionality.

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Design, Performance, and Mode of Action of Hyperbranched Fire Retardants: Advancement and Perspective

Hu,

Zhang,

Yuan

et al. 2024

ACS Appl. Polym. Mater.

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show abstract

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Synergistic enhancement of toughness and flame retardation for cyanate ester composites through hyperbranched polyborosiloxane

Cited by 1 publication

References 42 publications

Design, Performance, and Mode of Action of Hyperbranched Fire Retardants: Advancement and Perspective

Design, Performance, and Mode of Action of Hyperbranched Fire Retardants: Advancement and Perspective

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