Vividye now introduces a new textile print technology that actually makes the print removable without putting too much strain on the textile fiber – and therefore makes new use of the garment possible.

We do simulation, analytics and data that enables a green transition. We help banks help their customers to understand and take action to do energy efficiency actions to their homes.

Recoma is uniquely scalable when it comes to reducing waste and emissions. Saving packaging waste and giving it new life by turning it into 100% recycled, 100% recyclable building materials

Colabit develops and produces renewable fuels that can be used directly in conventional engines, regardless of whether they run on diesel, petrol or jet fuel. No conversion is required and they work in existing infrastructure.

We permanently remove carbon dioxide from the atmosphere. Utilizing Bioenergy with Carbon Capture and Storage (BECCS) technologies, we are able to capture carbon emissions from biomass, rather than from fossil fuels as is done with CCS.

Svenska Aerogel manufactures and commercializes the mesoporous material Quartzene®. Our business concept is to meet the market’s need for new materials that are in line with global sustainability objectives.

INNOVENTUM has developed two hybrid systems that produce renewable energy from both sun and wind. The solar and wind power package is the hybrid system DALI PowerTower, and its other hybrid solution is GIRAFFE, which has won great prizes over the years.

At Trifilon, we’re continually exploring new bio-material technologies and investigating how to bring them to market. Technologies already exist for polymers made from renewable sources, which can be recycled, and which can decompose after use.

Our aim is to solve challenges in society: A resource efficient and sustainable process to enable a green pharmaceutical industry. Increase the use of natural flavor and fragrance and commercialise the patented process for sustainable biofuels.

Bioextrax has developed a unique and GMO-free process which increases the conversion rate between sucrose and PHA, allowing for a significantly lower production cost for PHA.