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Hierarchical MFPCM@MXene@PBA nanohybrids towards high-efficiency flame retardancy and thermal regulation performance for microencapsulated phase change materials in rigid polyurethane foam

Biyu Huang, Zexuan Zhao, Yihao Jiang, S. B. Wang, Chuanmei Jiao, Xilei Chen

2025Energy7 citationsDOI

Topics & Concepts

PolyurethaneMaterials scienceComposite materialComposite numberFlammabilityThermal conductivityThermalThermal insulationCompressive strengthPhase (matter)Phase-change materialPhase changeFire performanceThermal stabilityThermal energyThermal expansionThermal decompositionNanomaterialsFlame spreadThermal energy storageFire resistanceSandwich-structured compositeFlame retardant materials and propertiesPhase Change Materials Research
Hierarchical MFPCM@MXene@PBA nanohybrids towards high-efficiency flame retardancy and thermal regulation performance for microencapsulated phase change materials in rigid polyurethane foam | Litcius