Latest news in this area
A layer just a few atoms deep can work wonders
The atomic layer deposition (ALD) technique developed by Tuomo Suntola revolutionised information technology in the 2000s. Now researchers are using it to make better catalysts, solar cells of record efficiency and hybrid materials that transport medicines and generate electricity from bodily waste heat.
Tailoring the surface of carbon may hold the key to monitoring patient blood in real-time
Machine learning is increasing the pace of development of customised carbon surfaces with a wide variety of applications
Half a million funding from Business Finland for the development of circular economy of metals
The funded sub-project of Aalto is part of SYMMET, which is searching for solutions to the increasing need for metallic materials.
Jenni Haukio to wear gown made of sustainable Ioncell material at December’s Independence Day reception
Ioncell is a new technology that creates high-quality textile fibres from wood or recycled materials.
One atom at a time
AI is not only changing the way we process data, it’s changing how we carry out research, period.
The next material revolution will start in the forest
Plastic straws and utensils will soon be history but they will not be missed, as something much better will replace them.
Fibre technologies revolutionising the textile industry win the European Commission's Regiostars Awards
VTT and Aalto University’s TeKiDe project won the category Achieving sustainability through low carbon emissions.
EIT RawMaterials is one of the key actors in the European Battery Alliance
EIT RawMaterials contribution to the European Battery Alliance. Sustainable Materials as Key Enablers for Future Mobility.
EIT InnoEnergy plays pivotal role within the European Battery Alliance
EIT InnoEnergy is proud to be instrumental in European Battery Alliance.
Rare metals need efficient recycling
How can the valuable ingredients of batteries be recovered? What could replace bismuth, tellurium and many other rarities? These issues are being examined by the CloseLoop project.
What if the world’s cattle munched on Finnish wood?
A new manufacturing method will open entirely new markets for microcrystalline cellulose. It could be used, for example, to enrich animal fodder.
