Innovative membrane functionalisation technology allows advanced separation based on affinity – and not just by molecule size – tailored to specific applications.
High performance components for battery management systems, making electrical energy storage safer, more efficient, more flexible and more cost-effective. Suitable for a variety of electrical storage system types.
Making optimum and sustainable use of biomass. New value chains with biomass as an alternative profitable source of raw materials in the development of sustainable technologies.
Access to clean water is a growing global challenge. Innnovative membrane technology combined with sustainable energy use provides an economically viable and green solution towards potable water worldwide.
Aerial observation using compact camera systems with innovative thin-film color filter technology enables advanced data collection, visualization and predictions about land phenomena.
Plasma technology offers excellent solutions to meet increasing demands for lighter, stronger and more sustainable materials. This leads to hybrid and composite materials incorporating desired surface properties.
Our aim is to provide the health sector with ready-to-use innovative tools for faster, cheaper and more accurate measurement and analysis.
Smart processing of mineral waste streams enables high quality product development in a sustainable way. The residual fractions remaining after recycling are the basis for new products.
3D-structured chemically functional beds from metal or ceramics, using innovative 3DFD technology. It allows designing architectural porous structures for performing e.g. optimal catalytic processes.
Design processes for ceramic and metal structures complying with strict quality requirements for e.g. medical implants. These processes can be adapted to suit various intended applications
Volume Intensified Dilution, combines separation and conversion. Making problematic chemical or enzymatic reactions possible with an increased efficiency of up to 80%.
The transition from traditional energy transport and management to a new energy infrastructure comprising smart grids is a complex challenge. Innovative models and functionalities are promising in providing solutions for a new balance in sustainable energy supply and consumption.
Electrochemical reactors are promising for the sustainable production of a wide range of chemicals. It is an attractive way of synthesizing various compounds from commodity chemicals to highly specialized molecules.
Smart process designs integrating the self-generation of energy for recovery of valuable materials from aqueous (waste) streams or residue offer interesting opportunities in this respect.
New developments enable enhanced industrial and domestic heating and cooling, using renewable energy sources.
Polymeric film membranes with customized pore structure and diverse, advanced functionalities - tune into excellent ion-conducting membranes, making them useful as e.g. separators in electrochemical cells.