Cooperation offer:
| 1 | Next-generation batteries and solid-state electrolytes Research and development of advanced battery materials, electrodes and solid electrolytes aimed at improving safety, energy density and lifetime of energy storage systems. Collaboration can focus on interface engineering, performance optimisation and accelerated testing in industrially relevant conditions. |
| 2 | Green electrocatalysts for hydrogen production Development of eco-friendly nanostructured electrocatalysts designed for hydrogen evolution and related electrochemical reactions. Cooperation can include synthesis, surface engineering, durability testing and scaling of electrocatalyst systems for green energy applications. |
| 3 | Ceramic materials and coatings Design and characterisation of advanced ceramic materials and functional ceramic coatings with tailored thermal, mechanical and chemical properties. Joint projects can involve the development of porous ceramics, high-temperature components or protective coatings for industrial use. |
| 4 | Surface engineering and modification of materials Research and optimisation of surface treatments for metals, ceramics and polymers to enhance adhesion, corrosion resistance or functional activity. Collaboration may include customised surface modifications for biomedical, electronic or structural applications. |
| 5 | Polymeric materials and functional coatings Development of advanced polymeric systems, nanocomposites and coatings with controllable physical and chemical properties. Cooperation can include formulation, testing and adaptation of polymer materials for sensors, coatings, electronics or smart packaging. |
| 6 | Biocompatible and biomedical materials Research and development of biomaterials and surface-modified materials for use in implants, regenerative medicine and tissue engineering. Collaboration can include biocompatibility testing, surface functionalisation and development of application-ready prototypes. |
| 7 | Nanocellulose and eco-friendly nanocomposites Development of scalable methods for producing nanofibrillated cellulose and its integration into polymers, ceramics and composite materials. Collaboration may target applications in shock-absorbing systems, electrochemical devices or environmentally sustainable materials. |
| 8 | Nanomaterials for biomedical applications Research and development of functional nanomaterials and nanoconjugates for diagnostic and therapeutic purposes. Cooperation can involve studies of biocompatibility, targeted delivery, cell interactions and advanced imaging methods. |