The main objectives of the program

Working fundamentals of creation of materials, components and systems that would allow to reduce the cost and increase the durability of fuel cells for transport, stationary and offline use.

Expected results:

-will the new results about the influence of preparation technology, composition and structure on the main characteristics of a proton- and anion leading membrane electrode materials and catalysts for fuel cells based on polymer and solid oxide electrolytes;
-established mechanisms for improving the properties, including operating temperature, leading proton membrane modification with inorganic fillers;
-developed scientific bases of synthesis technology multicomponent oxide powders and ceramics on their basis for solid oxide fuel cells, optimized structure and clarified the nature of the electrical properties of the films of zirconium oxide stabilized complex additives, the mechanisms of degradation in terms of the necessary operating temperature and humidity;
-will create demonstration samples of polymer and oxide fuel cells that run on hydrogen, with improved performance and extended resources work.

Approved
Decree of the Presidium of NAS of Ukraine
№ 363 of 09.06.2016

• project №19  Ceramic fuel cell for aircraft

• project №20  Multilayer structure based on thick films for low temperature (600 ° C) fuel cell

• project №21 The synthesis of complex oxide and metal oxide-hydrogen permeable systems for use as components of solid oxide fuel cells

• project №22 Catalytic properties of anode materials PDA in the process of oxidative conversion of hydrocarbon fuels

• project №23 Development of highly efficient membrane-electrode units of the new generation of low-temperature hydrogen-air fuel cells and batteries based on them

• project №24 Hybrid electrocatalysts of oxygen reduction based on conducting polymers for low temperature fuel cells

• project №25 Study of the impact of the working environment on physical and mechanical properties of ceramic materials and the development of fuel cell technologies to improve

• project №26 Development of composite polymer ion-exchange membranes for polymer electrolyte hydrogen fuel cells