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In Situ Assembly of Nanostructured Polyelectrolyte Coatings by Aqueous Phase Separation toward Outstanding Thermal Insulation and Fire Resistance

Wei Luo, Ting Wang, Xue Gou, Jie Luo, Wenli An, Zhi-Cheng Fu, Jinni Deng, Haibo Zhao, Ming‐Jun Chen

2024ACS Materials Letters11 citationsDOI

Abstract

Flame-retardant surface treatments effectively reduce the fire hazard of polymeric foams but are plagued by high coating thickness and deterioration of inherent thermal insulation. Constructing a nanostructure can significantly enhance the thermal insulation of coatings, but current methods usually rely on toxic solvents and harsh conditions. Herein, we present a facile and eco-friendly strategy employing a Cu 2+ -assisted aqueous phase separation (APS) strategy for the assembly of nanostructured polyelectrolyte coatings in situ. Exploiting the multiple cross-linking interactions between Cu 2+ and the polyelectrolyte complex (PEC), the unique nanosheet (∼200 nm) structure was assembled in the PEC coating. When coated on rigid polyurethane foam (RPUF), the thermal conductivity was reduced to 28.1 from 30.0 mW/m·K. Moreover, the coated RPUF manifests a limiting oxygen index of 36% and reduces heat/smoke release (>60%). This work provides a facile and eco-friendly strategy to cast flame-retardant nanostructured coatings for materials with excellent integrated performances.

Topics & Concepts

PolyelectrolyteMaterials scienceAqueous solutionFire resistancePhase (matter)In situThermal insulationThermal resistanceChemical engineeringThermalComposite materialPolymerChemistryEngineeringOrganic chemistryPhysicsMeteorologyLayer (electronics)Flame retardant materials and propertiesPolymer Nanocomposites and PropertiesSynthesis and properties of polymers
In Situ Assembly of Nanostructured Polyelectrolyte Coatings by Aqueous Phase Separation toward Outstanding Thermal Insulation and Fire Resistance | Litcius