BIOBASED PYRAZINE MONOMERS FROM SECOND GENERATION BIOMASS FOR HIGH PERFORMANCE POLYMERS, COPOLYMERS AND BLENDS

Objetivo

The Sustainable Product Initiative sets a challenge for European industries to create sustainable products, considering environmental impact, durability, recyclability, and safety. BIOPYRANIA introduces a groundbreaking approach using a new class of biobased pyrazine monomers. They will be synthesized from glutamic acid and 5-amino levulinic acid that are on their turn obtained via fermentative processes starting from European, second generation woody biomass.

As already proven by the recent work on pyrazine based polyesters in the labs of Maastricht University, the incorporation of pyrazines gives unprecedented properties, including the potential for added chemical functionality and improved material characteristics through non-traditional hydrogen bonding.

BIOPYRANIA will use this knowledge to develop new classes of pyrazine based polyamide and polybenzimidazole polymers, copolymers, and blends in a safe and sustainable way from lab to pilot scale. These pyrazine-based materials have the potential to revolutionize high-performance applications, with a focus on the automotive and green hydrogen sectors. With the electrification of the automotive industry, lightweight, high-performance materials are more and more crucial, and BIOPYRANIA polyamides are promising candidates. In the green energy market, there is a growing demand for clean hydrogen production. Electrolyzers and fuel cells play a key role in this process, and BIOPYRANIA aims to enhance the performance and sustainability of anion exchange membranes that are used therein with pyrazine based polybenzimidazoles. Recycling of these materials will enhance their circularity profile.

The developments will be supported and accelerated by digital methodologies, environmental, toxicological, techno-economic and social impact studies. The BIOPYRANIA consortium is a robust partnership of 2 ACAs, 2 RTOs, 7 SMEs, and 2 industrial partners.

Ámbito científico

• natural scienceschemical sciencespolymer sciences
• engineering and technologymechanical engineeringvehicle engineeringautomotive engineering
• social scienceseconomics and businesseconomicssustainable economy
• engineering and technologyenvironmental engineeringenergy and fuelsfuel cells
• engineering and technologyenvironmental engineeringenergy and fuelsrenewable energyhydrogen energy

Palabras clave

• Biobased polymer
• pyrazine
• polyamide
• polybenzimidazole
• recycling
• unprecedented properties

Programa(s)

• HORIZON.2.6 - Food, Bioeconomy Natural Resources, Agriculture and Environment Main Programme
• HORIZON.2.6.6 - Bio-based Innovation Systems in the EU Bioeconomy

Tema(s)

• HORIZON-JU-CBE-2023-R-04 - Development of novel, high-performance bio-based polymers and co-polymers

Convocatoria de propuestas

HORIZON-JU-CBE-2023

Régimen de financiación

Coordinador

Participantes (12)