“If you really believe that the environment is less important than the economy, try holding your breath while you count your money”
Dr. Guy McPherson
From derivatives and organic waste we obtain raw material, which is transformed through molecular technology, green chemistry processes and Artificial Intelligence into a biopolymer with high added value.
Our development is a model in efficiency and environmental responsibility.
Our goal is to introduce technical, efficient and sustainable materials to the market. Making viable the reduction of the impact by industrial activity caused.
Focused on the development of intelligent biopolymers, which provide useful active substances in agriculture, biomedicine and other technological sectors.
DAN*NA, our technological partner, is specialized in bioengineering and is dedicated to the development of advanced biopolymers and biomaterials for the latest generation of Technology Sector and Agriculture.
Joint project: Investment € 6.6 million - EU H2020-FNR-2020-2
We develop and optimize technologies to convert CO2 into different types of chemicals that are used for various uses, in our case bioplastics for 14 partners.
It is an EU Horizon 2020 project, endowed with € 6.9 million.
Set of techniques that use biological processes to reuse CO2 from iron, steel, cement and electrical energy industries to produce value-added chemicals and bioplastics.
It is made up of 18 partners in 8 countries.
Development of a biotechnological process to valorize dairy waste in bioproducts
such as lactic acid and PHA.
Circular economy - Waste recovery
Development of a bioactivated biomaterial for use as a platform for 3D bioprinting, for the regeneration of bone tissue.
Biomedicine - 3D Bioprinting
Cooperative project: Budget € 5.2 million Spain CDTI MISSIONS Industrial research of new technologies for the personalized treatment of knee osteoarticular pathologies through Artificial Intelligence and cellularized implants generated by 3D bioprinting. It is made up of 11 partners.
Development of a technical bioplastic with electrical conductive properties, to be used as an electromagnetic interference (EMI) barrier for these electronic systems.
Electronic safety and sustainability
Development of a substrate to be used in hydroponic crops to improve the
crop efficiency. Reduce water stress
Hydroponics - Smart Substrate
Development of a bioplastic to be used in a marine environment, biodegradable
and with physical resistance.
Clean oceans
World leading company in the development of sustainable biomaterials.
