Waste2Fuel Catalytic Conversion Platform

The Waste2Fuel project develops advanced catalytic technologies for the conversion of waste-derived feedstocks into valuable energy carriers, including hydrogen, syngas, and synthetic fuels. Our platform is based on highly tunable multicomponent catalysts (Cu–Ni, Ni–V, and nanostructured metal–support systems) designed to optimize activity, selectivity, and long-term stability across CO₂, DME, and biofuel reforming processes.

We offer expertise in catalyst design, mechanistic understanding, and process optimization for scalable waste-to-fuel and Power-to-X applications. The technology enables flexible adaptation to industrially relevant conditions, supporting the transition toward low-carbon energy systems and circular fuel production.

We actively welcome collaboration with industry partners and technology stakeholders working on:

• CO₂ utilization and hydrogen production
• Synthetic fuel and e-fuel development (DME, methanol, syngas)
• Waste-to-energy and biomass valorization
• Catalyst scale-up, reactor design, and process integration

We are open to joint research projects, contract research, pilot-scale development, and EU-funded consortia focused on industrial implementation of sustainable catalytic technologies.