The PACK-NIN project aimed to develop lignin-based PLA composite materials for sustainable packaging applications, promoting the valorization of lignin by incorporating it into the PLA polymer to reduce costs and improve physical and mechanical properties. Anti-oxidation, lipid oxidation, biodegradation, and antimicrobial tests were conducted, and all these studies confirmed the suitability of lignin for use in food-based packaging, with an optimum content of 10% by weight.
To assess people's acceptance of color variation in the material after lignin addition, a survey was conducted, presenting participants with a picture of the material and asking for their acceptance rating. Interestingly, most survey participants were not greatly concerned about the color change and readily accepted it, recognizing the importance and sustainability of packaging. People placed high importance on the safety, recyclability, biodegradability, reusability, source, and price of the material (above 3.5 out of 5). Medium importance was given to permeability, durability, and flexibility (above 2.5 out of 5), while less importance was given to smoothness, transparency, and color (above 1.5 out of 5) of the material.
Overall, the PACK-NIN project advocated for the utilization of underutilized materials like lignin from biorefineries in value-added applications, which significantly contribute to the development of potential applications in various sectors, including polymer composites for medical applications. By replacing fossil-fuel-based resources with biobased materials like lignin, the project addressed global climate concerns, recyclability, and reusability, which are directly linked to society. The comprehensive study on the valorization of lignin with different modifications, as well as its combination with PLA and Cu, was made possible through the fellowship. The achievements of the PACK-NIN project can be integrated and extended in the market to further advance a sustainable bioeconomy and support EU initiatives.