SINTEF Industry projects

FME ZeMe developes the fundamental knowledge and technologies needed by the Norwegian metallurgical industry to become climate neutral by 2050.

Galileo will develop safe, scalable, and recyclable fluorine-free polymer electrolytes for sodium-ion batteries to support sustainable energy storage.

gigaCCS will create competitive CCS technologies, increase value, and reduce risk for industry and society through strategic competence and capacity building, supporting emissions reduction targets.

The goal of the LiTIA project is to develop new knowledge on lithium transport and interface reactions in advanced battery materials, which are identified by our industry partners CENATE and Vianode as key knowledge gaps.

The computers of the future might be driven by skyrmions – units of magnetism that can be manipulated with much less energy than the electrical charges that are used today. In NIMSKY, we are performing fundamental studies of how skyrmions move in...

Pol(Hy)mer is a knowledge building project which aims to create knowledge on the interactions between polymer materials (and multimaterial structures which include polymers) and H₂, to aid proper selection of materials to minimize leakage and...

RESPOND2030 brings together governance, industry, and research actors to develop knowledge on the conditions, and paths forward for processing industry decarbonization and associated energy system change.

Norway has potential resources for the production of critical raw materials in metallic form from domestic resources, such as industrial minerals, waste from the process industry, and unexploited mineral resources.

SOLARIS drives Europe’s energy transition by optimizing resource efficiency and solar energy sustainability across the entire lifecycle of photovoltaics.