News
Giiguulen Enkhsaikhan: More sustainable textiles with hemicellulose
Aalto University's doctoral researcher's presentation of hemicellulose won the third prize in the Marcus Wallenberg Young Researchers鈥 Challenge event in November
Keys to growth: A new era of game-changers in the forest industry
Wood can be shaped into almost anything in the hands of researchers, but transforming the forest industry also requires risk-taking and fresh thinking. That鈥檚 why experts say now is an incredible time to study the field.
Accelerating the sustainable development and commercialization of bio-innovations
Aalto University and industrial partners are developing new methods and tools to help identify technological risks and bottlenecks鈥攁nd to integrate sustainability into the development process from the beginning.
Chemical engineering student Karya K枚r眉kc眉: 'I got the chance to join a project developing glucose biosensors for diabetics'
Karya K枚r眉kc眉 is making the most of her studies in Bioproduct Engineering at Aalto University. She dreams of an academic career in the fascinating world of chemistry.
Researchers Unlock a Stronger, Greener Way to Bond Wood: Finnish pulp fiber could be used to bond wood for the construction industry
Researchers at Aalto University have developed a groundbreaking wood bonding method using primarily pulp fibers from Finnish forestry. The resulting bonding interface is twice as strong as natural wood while highly resistant to water. This breakthrough could transform sustainable construction by reducing reliance on petroleum-based adhesives.
Scientific Computing Skills: a new umbrella course for all researchers
Today, computing skills are essential not only in academic research but also across industries. Take part in hands-on trainings provided by Aalto Scientific Computing and by partner organisations such as CodeRefinery and CSC IT Center for Science.
Finnish forest industry is renewing through academic research and innovation
The FinnCERES Flagship is advancing long-term, high-impact research that drives innovation, economic growth, and societal development towards a sustainable bioeconomy.
Researchers create gel that can self-heal like human skin
Until now, artificial gels have either managed to replicate this high stiffness or natural skin鈥檚 self-healing properties, but not both. Now, a team of researchers from Aalto University and the University of Bayreuth are the first to develop a hydrogel with a unique structure that overcomes earlier limitations, opening the door to applications such as drug delivery, wound healing, soft robotics sensors and artificial skin.
Online course on Wood Mechanics starts 24.2.2025
Learn 100% online about the engineering potential of wood as a complex natural material.
A Flexible Biorefinery using Machine Learning
Biorefineries convert biomass, such as wood, annual plants or agricultural into products and energy. Research teams in Finland and Germany aim to maximize such product output for a more holistic valorization of our natural resources. The development of these new processes is often slow because they require optimization of many factors. The integration of artificial intelligence (AI) can help us accelerate such a development drastically.
New life for construction waste wood
In Finland, almost all waste wood from construction ends up being burned, even though it could play a major role in the development of ecological growing media. New research shows that steam-treated waste wood can replace peat as a growing medium and offers promising results in plant germination and root growth.
Appointments at the School of Chemical Engineering
The School of Chemical Engineering has appointed Jukka Hassinen as Development Manager and Sanna Hellst茅n as FinnCERES flagship Manager.
A new eco-friendly method to modify cellulose for sustainable materials
Researchers at Aalto University have developed a method to modify cellulose, reducing toxic solvent use by over ten times compared to traditional methods. This innovation has potential applications in eco-friendly nanocomposites, cellulose-based membranes, and biomedical devices, supporting sustainable material development.
Bio-based opacifiers offer solutions to cleaner environment
The CELLIGHT project, backed by approx. 鈧1.3 million in funding from Business Finland, aims to develop cellulose-based alternatives to titanium dioxide (TiO2 ), a widely used whitener in paints, cosmetics, and coatings.
Aalto Distinguished Professor Tapani Vuorinen: 鈥淥nly through collaboration can we achieve greater impact鈥
Tapani Vuorinen, professor of forest products chemistry at the School of Chemical Engineering, was appointed Aalto Distinguished Professor at the opening of the academic year on 3 September.
Sesilja Aranko has been appointed Assistant Professor at the Department of Bioproducts and Biosystems
Ph. D. Sesilja Aranko has been appointed four-year (second term) fixed term Assistant Professor position at the Department of Bioproducts and Biosystems as of 1 September 2024. The field of the professorship is Cellular Engineering.
Doctoral research seeks textile dyes from nature and bioproduction side streams
Aalto University and the Natural Resources Institute Finland are developing bio-based textile dyes.
Improved wood
Finland is known for its wood. The Wood Material Science research group, led by Lauri Rautkari, is, as its name suggests, focused on wood, which is perhaps more interesting now than ever.
Natural luxury 鈥 Wooden crystals make fashion shine
Biomaterials and 3D-printing conjure a sparkle out of wood without harming people or the environment
UPM supports Aalto University's pulp research and education
High quality research enables high quality education
