Abstract:
The project aims to develop innovative technologies for the efficient conversion of CO₂ into synthetic fuels and for energy storage, thereby contributing to the decarbonization of the energy sector. Specifically, it involves:
- Development of an electrochemical system capable of stably and efficiently reducing CO₂ into e-fuels with high selectivity and efficiency, which will be measurable through Faradaic efficiency (65%) and long-term stability (min. 2000 hours).
- Integrating the electrochemical system with a catalytic unit for the production of e-fuels will enable the efficient use of co-generated hydrogen, which will lead to higher energy efficiency of the entire process.
- Development of an ecological organic redox flow battery with a capacity of 5 kWh and a lifetime of min. 2000 cycles, providing a sustainable alternative to traditional batteries.