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Improvement of water barrier properties of soybean protein isolate films by poly(3?hydroxybutyrate) thin coating

The aim of this work was to study the preparation of bilayer films formed by soy protein isolate (SPI) and polyhydroxybutyrate (PHB). This was done using the lowest possible concentration of PHB to improve the functionality of SPI films as food packaging or for agricultural uses, specially reducing their water vapor permeability. The combination of both SPI and PHB seems to be a good alternative to prepare a completely biodegradable material taking advantages of the best properties of each component.AbstractThe aim of this work was to study the preparation of bilayer films formed by soy protein isolate (SPI) and polyhydroxybutyrate (PHB). This was done using the lowest possible concentration of PHB to improve the functionality of SPI films as food packaging or for agricultural uses, specially reducing their water vapor permeability (WVP). SPI films are environmentally friendly since they are biodegradable and come from renewable sources but they are brittle and have high water permeability. Even for the lowest concentration analyzed, PHB managed to form a homogeneous layer that successfully covered up the SPI film surface. All bilayers films showed a significant reduction of WVP of SPI films, and those with the highest PHB content showed the highest elastic Young's modulus and mechanical strength while maintaining a good elongation and low Tg value, similar to that of SPI. Despite of their hydrophobicity differences, a good adherence of both layers was achieved, which allowed to improve the mechanical and barrier properties of the SPI coated films with respect to films formed by both biopolymers separately. The combination of both SPI and PHB seems to be a good alternative to prepare a biodegradable material taking advantages of the best properties of each component.

Publication date: 25/08/2020

Author: Pablo R. Salgado, David A. D'Amico, Irene T. Seoane, Magdalena Iglesias Montes, Adriana N. Mauri, Viviana P. Cyras

Reference: doi:10.1002/app.49758

Journal of Applied Polymer Science




  

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 1914.