Enhanced Flame-Retardant Properties of PVDF Using a Multiphase Synergistic Approach with Phytate-Chitosan-Modified Boron Nitride
Shiyi Ming, Piao Wang, Shaoyuan Wu, Jinghan Hu, Jie Zhang, Lianlian Li, Bingyue Huang, Weijiang Huang, Xingyu Guan, Kui Wang, Wei Yan

TL;DR
This paper introduces a new method to enhance the flame resistance of PVDF using modified boron nitride particles.
Contribution
A novel synergistic modification strategy using phytate and chitosan to coat boron nitride for improved flame retardancy in PVDF.
Findings
PVDF composite films with BN@PA-CS showed a 77.83% reduction in peak heat release rate.
The synergistic effect of BN nanosheets and PA-CS significantly improved flame-retardant properties.
The method offers a new approach to enhance the safety of PVDF battery separators.
Abstract
The morphology and composition of inorganic particles play a vital role in controlling the flame-retardant characteristics of polymers. Halogen-free flame-retardant polymers have also become a current research hotspot. Boron nitride (BN), phytic acid (PA), and chitosan (CS), a natural polysaccharide with a nitrogen content of approximately 6.8–7.5%, show great promise as flame retardants owing to their high thermal stability, P-based flame retardancy, and natural polysaccharide properties, respectively. In this study, BN (BN@PA-CS) particles coated with PA and CS were designed and prepared via a facile modification strategy. The effect of BN@PA-CS on the mechanical and flame-retardant properties of polyvinylidene fluoride (PVDF) was further investigated, and it was found that both characteristics were improved. Compared to pure PVDF, the PVDF composite films exhibited a significantly…
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Taxonomy
TopicsFlame retardant materials and properties · Fire dynamics and safety research · Surface Modification and Superhydrophobicity
