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Nature‐Inspired, Heat & Noise‐Insulation, Highly Robust MOFs‐Based Hybrid Fire‐Retardant Coatings with Easy‐Recycling Feature

Hao Wang, Yinjie Wang, Tianyu Li, Chuang Yu, Lin Peng, Jiping Liu, Yuxuan Lan, Ye‐Tang Pan

2025Advanced Functional Materials53 citationsDOI

Abstract

Abstract Flexible polyurethane foams are widely used in building and vehicle interiors due to their lightweight and high resilience. However, most foams are non‐biodegradable or fireproof, leading to serious white foam pollution and safety problems. Here, FPUF made of a porous MOF material loaded with flame retardant elements as a coating is reported, which realizes fire protection, isolation of heat and noise, and recovery of foam. The results show that FPUF‐3 exhibited excellent fire and smoke suppression effects, and PHRR, CO production, and CO 2 production are reduced by 28.5%, 54.5%, and 21.4%, respectively. The FPUF‐3 shows a longer heat preservation effect and can reduce the common noise decibel by >35%. In addition, the coating exhibits excellent stability under extreme acid–base conditions and has longer durability and effectiveness under alkaline conditions. Furthermore, the separation and recovery of FPUF and coating can be realized by ethanol solvent, and the recovery rate of coating can reach >80%, the foam still has the original high elasticity and lightweight characteristics. It provides a sustainable and practical solution for effectively improving the noise reduction, fire prevention, and heat insulation capabilities of FPUF.

Topics & Concepts

Materials scienceFire retardantComposite materialFeature (linguistics)Thermal insulationForensic engineeringNanotechnologyLayer (electronics)EngineeringLinguisticsPhilosophyFlame retardant materials and propertiesPolymer composites and self-healingFire dynamics and safety research
Nature‐Inspired, Heat & Noise‐Insulation, Highly Robust MOFs‐Based Hybrid Fire‐Retardant Coatings with Easy‐Recycling Feature | Litcius