Poly(butylene succinate) reinforced by small amount of grafted nanofibrillated bacterial cellulose: Toughness variability based on nanocomposites preparation method
Hashim H, Xia X, Kani H, Seno S, Li F, Isono T, Yamamoto T, Tani H, Satoh T, Tajima K. Poly(butylene succinate) reinforced by small amount of grafted nanofibrillated bacterial cellulose: Toughness variability based on nanocomposites preparation method. Composites Part A Applied Science And Manufacturing 2024, 185: 108341. DOI: 10.1016/j.compositesa.2024.108341.Peer-Reviewed Original ResearchMelt-kneadedNanofibrillated bacterial cellulosePolybutylene succinateSolvent castingHydroxypropyl celluloseNanocomposite preparation methodBacterial celluloseLow mechanical performanceMechanical performanceFlexural strengthPoly(butylene succinateReinforcing agentYoung's modulusNanocompositesBiodegradable polymersToughnessCompost biodegradation testsSurface compatibilityBiodegradation testsModulusPreparation methodDispersing agentHydrophobic moietiesCellulose-producing bacteriumCelluloseAcetyl Cellooligosaccharide-Based Block Copolymers for Toughening Cellulose Triacetate/Poly(ε-caprolactone) Biodegradable Blends
Katsuhara S, Tsuji Y, Sunagawa N, Igarashi K, Takahashi K, Yamamoto T, Li F, Tajima K, Isono T, Satoh T. Acetyl Cellooligosaccharide-Based Block Copolymers for Toughening Cellulose Triacetate/Poly(ε-caprolactone) Biodegradable Blends. ACS Sustainable Chemistry & Engineering 2024, 12: 3025-3033. DOI: 10.1021/acssuschemeng.3c06411.Peer-Reviewed Original ResearchPoly(e-caprolactoneBlock copolymersBlend filmsCellulose triacetateImproved interfacial adhesionTernary blend filmsBinary blend filmsImproved mechanical performanceCellulose acetateCellulose triacetate matrixApplication of cellulose acetateAtomic force microscopyInterfacial adhesionHot pressingMechanical performanceEnvironmentally benign materialsMechanical propertiesSolvent castingBlend partnersForce microscopyBenign materialsTriacetateFilmsCopolymersPotential applications