Polylactic Acid

Enhancing the Hydrolytic Stability of Poly(lactic acid) Using Novel Stabilizer Combinations

Commercially available poly(lactic acid) exhibits poor hydrolytic stability, which makes it impossible for use in durable applications. Therefore, a novel hydrolysis inhibitor based on an aziridine derivative as well as a novel stabilizer composition, containing an aziridine derivative and an acid scavenger, were investigated to improve the hydrolytic stability. To evaluate the stabilizing effect, the melt volume rate (MVR) and molecular weight were monitored during an accelerated hydrolytic aging in water at elevated temperatures.

High-Performance Conductive Nanocomposites Based on CNF/PLA Reinforced by Functionalized Graphene Derivative

This project aims to combine the Brazilian group’s expertise in nanomaterials’ surface engineering and polymer-based nanocomposite with the Spanish group’s expertise in transforming agricultural and industrial waste (which is abundant in both Spain and Brazil) into valued natural source polymers, to incorporate the intrinsic properties of sustainable materials into nanocomposites for advanced applications.