
CAPTUS
CAPTUS aims to demonstrate sustainable and cost-effective pathways to produce high added-value renewable energy carriers from the carbon emissions of energy intensive industries.
CAPTUS aims to demonstrate sustainable and cost-effective pathways to produce high added-value renewable energy carriers from the carbon emissions of energy intensive industries.
Project development for active control of thermochemical transformations of regional biomass resources with improved quality of produced energy and increase of European climate neutrality.
The main goal of the 3S Battery project is to develop advanced, tailored separators to reduce the degradation and improve the lifetime of lithium-sulfur-batteries.
NEXTCELL’S overarching goal is to provide a new Li-Ion cell generation for both high capacity and high voltage applications by developing and validating a ground-breaking gellified cell concept, integrating several innovations at the material level...
The Sure2Coat project will demonstrate the benefit of surface treatments with respect to corrosion protection and to improved heat transfer properties.
The SUSTAINCELL project aims at supporting the European industry in the development of the next generation electrolyser and fuel cell technologies (both low and high temperature) by developing a sustainable European supply chain of materials...
WISE Horizons will inform and accelerate the transition to a new economic paradigm with wellbeing, inclusion and sustainability at its core.
The ZEESA project build knowledge on how to design and operate renewable thermal-electrical integrated energy systems in the Arctic. These systems should be energy- and cost-efficient at same time as they ensure a high security of supply for arctic...
Innovative and sustainable high voltage Li -ion cells for next generation (EV) batteries (IntelLiGent) will pave the way to sustainable European generation 3B Li-ion batteries with increased energy density (≥ 350 Wh/kg) by an optimized high voltage...
The objective of the LASIBAT project is to enable a new inline manufacturing process for the ceramic cathode and electrolyte layers of future solid-state batteries.
Achieving Europe’s climate-neutral objectives will fundamentally depend on our ability to develop clean energy and mobility solutions in the most sustainable way.
The LOCOMOTION project will develop new low-cost and durable components for PEM fuel cells to reach ambitious targets set out for maritime applications.
Framework for systematic and integrated techno-economic and life-cycle assessments to support informed decision-making for sustainable development.
The main goal of GIGAGREEN is to develop and scale up innovative manufacturing processes or Li-ion battery components that follow a Design for Manufacture approach helping Europe to become a global leader in the Li-ion battery industry.
SUMBAT will be the first transition step towards creating the most sustainable battery value chain in the world, in Norway.
The increasing market of the electric vehicles and the growing importance of renewable energy sources calls for next generation high efficiency batteries.
Technology aim to development of technology for complete gas conversion and energy transfer using energy storage materials between different processes.
The goal of Allotherm is to discover and realize new alloy systems with superior thermoelectric (TE) properties to dramatically enhance TE waste heat harvesting.