Litcius/Paper detail

Diisocyanate-Induced Dynamic Vulcanization of Difunctional Fatty Acids toward Mechanically Robust PLA Blends with Enhanced Luminescence Emission

Hongzhi Liu, Ning Chen, Changqing Peng, Shuai Zhang, Tuan Liu, Pingan Song, Guolun Zhong, Hao Liu

2022Macromolecules38 citationsDOI

Abstract

The toughening of poly(lactic acid) (PLA) often involves the use of nonbiodegradable or petrochemical elastomers owing to the lack of effective renewable alternatives and facile routes to tailor desirable morphologies. In this work, we developed a facile and universal dynamic vulcanization strategy of dual monomers to fabricate mechanically robust PLA blends. By increasing NCO/COOH equivalent ratios between l-lysine diisocyanate (LDI) and hydrogenated dimer acid (HDA) (i.e., nNCO,LDI/nCOOH,HDA) above 1.0:1, the phase structure of the resulting PLA blends transformed from the common “sea-island” morphology to partially or fully co-continuous ones. The extraordinary impact toughness (the maximum impact strength up to 109.8 kJ m–2) in combination with the balanced strength and stiffness was attributed to a continuous biopolyamide elastomer (HDAPA) with the simultaneous improvement in both the cross-linking level and interfacial compatibilization. Atomic force microscopy (AFM)-based nanomechanical mapping results suggested that the cross-linking of HDAPA domains gradually prevailed from the boundaries into the whole domains with the elevated nNCO,LDI/nCOOH,HDA ratios. The mechanisms regarding multiple reactions and co-continuity development at an ultralow concentration of the minor HDAPA phase were elucidated. Intriguingly, the enhanced clustering-triggered emission was observed for the PLA/HDAPA blends with a fully co-continuous structure.

Topics & Concepts

VulcanizationToughnessElastomerMaterials scienceIsocyanateCompatibilizationMonomerPhase (matter)Chemical engineeringPolymer chemistryThermoplastic elastomerIzod impact strength testCopolymerPolymer blendPolymerChemistryComposite materialOrganic chemistryPolyurethaneNatural rubberEngineeringUltimate tensile strengthbiodegradable polymer synthesis and propertiesPolymer composites and self-healingSilicone and Siloxane Chemistry
Diisocyanate-Induced Dynamic Vulcanization of Difunctional Fatty Acids toward Mechanically Robust PLA Blends with Enhanced Luminescence Emission | Litcius