POLYBIOSKIN

High performance functional bio-based polymers for skin-contact products in biomedical, cosmetic and sanitary industry

Summary

Biopolymers offer high antimicrobial, antioxidant, absorbency, skin compatibility for high performance demanding skin-contact applications. These include would dressings, children’s nappies and facial beauty masks.

However, many of the polymers used in biomedical and cosmetic applications rely on fossil-derived sources. Although a number of alternative bio-based polymers is the subject of recent research, more effort is still needed to increase their specific functionalities and performances in order to proceed with their true translation into market.

The PolyBioSkin project seeks to broaden the use of biopolymers in strategic and demanding skin-contact applications by developing skin-contact bio-polymer based product parts with increased performance and functionality derived from biomass and food waste, providing a more environmentally friendly end of life given their biodegradability allowing organic recycling.

Description

Objectives: 

PolyBioSkin is focused on delivering nine core objectives:

  • Developing and validating a fully biodegradable nappy with a skin-compatible surface and a biopolymer-based superabsorbent, enriched with antimicrobial and antioxidant functionalities to prevent skin reddening and inflammation.
  • Developing and validating a fully biodegradable and bioactive facial beauty masks based on biopolymers, in the form of a film or a nonwoven tissue impregnated with formulations based on natural compounds.
  • Developing a nanostructured biocompatible non-woven tissue for use in wound dressings.
  • Assessing the skin compatibility of the developed bio-plastics, biopolymers and natural molecules, new textiles or films using ethically sustainable testing.
  • Increasing the renewable content of personal care applications, cosmetics products and wound dressings.
  • Reducing the environmental impact of the target products to improve end of life options through ecodesign.
  • Increasing the knowledge and understanding of smart nanotechnologies and nanomaterials as applied to biopolymers and validating them in the market.
  • Demonstrating the both the safety and regulatory compliance and the environmental and economic sustainability of the developed processes and products.
  • Maximising the contribution of the project results to growth and jobs.
Expected impacts: 

PolyBioSkin will create further innovation in the green economy, placing Europe in a leading position in the development of high-performance, eco-friendly biopolymers.

PolyBioSkin nappies will improve waste management practices, in particular replacing incineration and landfilling with organic recycling without compromising sustainable mechanical recycling options.

PolyBioSkin that can unlock the opportunities for substituting conventional fossil-based materials with more sustainable bio-based ones beyond packaging applications into high-value market niches

It will also contribute to Europe’s target of 20% of the chemicals and materials production being bio-based by 2020.

It will also help bring the consumer sector the advantages of advanced bio-based and biodegradable materials