柠檬导航

News

Wool electronics and orange peel clothing being created in Bioinnovation Center

Doctoral researchers at Aalto University Bioinnovation Center discuss accelerating the sustainable bioeconomy, the importance of collaboration and bold entrepreneurial dreams.
Various textured and coloured fabric samples, including white, brown, blue, red, beige and green, are arranged on a white surface.
Experimental bio-based materials from the Bioinnovation Center's research project. Photo: Esa Kapila.

Speeding up commercialisation

鈥楳y research isn鈥檛 about developing new technologies; it鈥檚 about helping others bring their inventions from the lab to the market faster. I use environmental assessment methods to ensure both the economic viability and environmental impact of a technology. This way, potential issues can be identified and solved as early as possible, increasing the speed of scaling up and the chances of success.

My dissertation focuses on textiles. Since the beginning of the millennium, global textile production has doubled, reaching 128 million tons per year. The majority are made from oil-based synthetic fibers or cotton, which requires vast amounts of water, farmland, and chemicals to grow. This is unsustainable for the planet, creating a strong demand for new solutions.

A woman with shoulder-length dark hair wearing a blue blazer and a white top. Grey background.
Maria Real de Almeida studies the profitability and environmental impacts of circular economy materials to support the successful commercialisation of new technologies. Photo: Maria Real de Almeida.

I鈥檓 part of a large collaboration project with 15 partners searching for new raw materials for textile fiber production. Right now, we鈥檙e studying how cellulose from orange peels performs in textile fibers and final products. Using recycled materials reduces the need for virgin raw materials, but that alone isn鈥檛 enough 鈥 we need to assess functionality and environmental impact across the entire lifecycle, from raw material sourcing to recycling.

At the Bioinnovation Center, we have regular meetings where doctoral researchers from different fields share knowledge and ideas. It鈥檚 both inspiring and educational 鈥 designers, for example, have valuable insights into user needs. My supervisor, Professor Luana Dessbesell, provides support but also gives me both authority and responsibility 鈥 after all, my dissertation is my own creation, my baby.

That said, I鈥檓 not doing this research for myself. I鈥檇 be thrilled if my work helps other researchers and, in doing so, contributes to building a more sustainable future.鈥

Maria Real de Almeida, doctoral researcher

Making the most of milk cartons

鈥業'm working on my PhD as part of the Sereplas project, a collaboration between the Bioinnovation Center, Valmet and Stora Enso. Our goal is to develop new, energy-efficient solutions for recycling liquid packaging boards, such as milk and juice cartons.

In Finland, these cartons are currently recycled alongside other cardboard, which is a missed opportunity. The carton itself is made of high-quality, virgin, bleached cellulose fiber. However, the polyethylene plastic layers on both sides often end up being incinerated. With new EU regulations pushing for better plastic recycling, this project is both timely and highly relevant for companies.

To make the plastic in cartons suitable for recycling, it must be completely free of cellulose fibers. This means that the carton and plastic need to be separated as precisely as possible, while also recovering high-quality fiber. The separation happens in a device called a pulper. However, the plastic and additives prolong the pulping process, increasing energy consumption 鈥 a challenge both economically and environmentally.

We鈥檝e been exploring ways to reduce processing time and, consequently, energy use through pre-treatment methods. Techniques such as pressure-assisted pre-wetting and perforation have shown promising results. The next step is figuring out how to scale them up for industrial use.

The Bioinnovation Center is a unique place for a researcher, offering expertise from various fields and valuable new connections. Lately, I鈥檝e found myself entertaining a bold new dream 鈥 becoming an entrepreneur. I鈥檇 love to develop machines that make it possible to scale up the methods I鈥檓 researching. I believe recycling challenges can be solved through technical innovations, and as an entrepreneur, I鈥檇 have both the freedom and independence to create them 鈥 and a huge opportunity to make an impact.鈥

Emilia Kauppi, doctoral researcher

Emilia Kauppi
Emilia Kauppi aims to find the most energy-efficient way to separate the cardboard and plastic in liquid cartons. Photo: Kalle Kataila.

Smart textiles that benefit both people and the environment

鈥業 develop new biodegradable materials for smart textiles to replace the metals and plastics traditionally used in their electronics.

Smart textiles can have various functionalities, but my focus is on sensors. These sensors can detect touch or temperature and respond in different ways 鈥 through lights, sounds, or vibrations. For example, a dancer could create music with their smart textile costume.

Technology is often perceived as cold and complicated, something that only large tech giants far away can manufacture. I don鈥檛 think it has to be that way. For instance, I have woven a keyboard from wool and cellulose fiber. It allows users to create various graphic elements on a screen, and it can be not only pressed but also bent and squeezed. The keyboard was showcased at Dutch Design Week, one of Europe鈥檚 largest design events. I enjoyed observing visitors鈥 reactions from a distance. The keyboard held up well, and older people, in particular, were excited about it.

A photo of Sofia Guridi
Sofia Guridi Sotomayor design human-centered soft technologies, such as keyboards woven from wool. Photo: Kristina Tsvetkova.

I believe the first practical applications of our work will be in areas where people鈥檚 vital signs are already closely monitored, such as healthcare. Many current measuring devices are expensive or disposable. Wouldn鈥檛 it be great if they were beautiful, affordable and compostable?

I鈥檓 a designer passionate about technology, and I鈥檝e always eagerly joined multidisciplinary projects. At the Bioinnovation Center, I work closely with a doctoral researcher in chemical engineering. My dissertation supervisor is a professor of design, but I also have advisors from electrical engineering, engineering sciences and artificial intelligence. The atmosphere is inspiring and encouraging 鈥 I almost feel spoiled to be working in such a wonderful environment.

After completing my PhD, I dream of having my own studio where I can experiment with experts from various fields, from artists to healthcare professionals. I would also love to collaborate more in my home country, Chile, which has a rich textile tradition and an abundance of fascinating materials to explore.鈥

Sofia Guridi Sotomayor, doctoral researcher

What is the Bioinnovation Center?

  • Aalto University Bioinnovation Center was established in 2021 with a 鈧10.5 million grant from the Jane and Aatos Erkko Foundation. The centre's goal is to accelerate the transition to a circular and bioeconomy and create opportunities for sustainable economic growth in Finland.
  • The research focuses on textiles and packaging, with 14 ongoing doctoral research projects.
  • At the heart of the Bioinnovation Center is a multidisciplinary doctoral school and its professor, Luana Dessbesell. The centre is directed by Professor Michael Hummel, with a steering group that includes professors from all six Aalto University schools.
  • In recent years, the centre has also secured significant external funding. One of the largest grants was awarded to the SciSustain project, led by Luana Dessbesell, which aims to develop and accelerate the commercialization of scientific bio-based innovations. The project has a budget of 鈧1.2 million and is funded by Business Finland and industry partners, including Valmet, Paptic, LignEasy, Stora Enso, Boreal Bioproducts, UPM and Mets盲. Accelerating research breakthroughs also requires investment in research infrastructure. The Bioinnovation Center has supported the construction of a pilot production line for Ioncell, an ecological textile fiber technology. This year, the centre is investing in a biodegradation laboratory.
  • Societal impact is a key part of the Bioinnovation Center鈥檚 mission. One of the highlights of 2024 was the widely publicised Mainiot Materiaalit (Magnificent materials) book, which encourages children and young people to experiment with materials. An English-language version of the book will be published this year. Researchers from the centre also showcase their work at various exhibitions and events, including Designs for a Cooler Planet, which will take place again this autumn at the Marsio building on Aalto University鈥檚 Otaniemi campus.

Aalto University Bioinnovation Center

To achieve human wellbeing in planetary boundaries, we need new sustainable solutions to wisely use our natural resources. The Bioinnovation Center especially focuses on innovations in sustainable bio-based materials, with special focus on textiles and packaging.

Read more
Photo: Artistic paper sample

This article has been published in the (issuu.com), May 2025.

  • Updated:
  • Published:
Share
URL copied!

Read more news

A person in black touches a large stone sculpture outside a brick building under a blue sky.
Campus, Research & Art, University Published:

Glitch artwork challenges to see art in a different light

Laura K枚n枚nen's sculpture was unveiled on 14 October at the Otaniemi campus.
Book cover of 'Nanoparticles Integrated Functional Textiles' edited by Md. Reazuddin Repon, Daiva Miku膷ioniene, and Aminoddin Haji.
Research & Art Published:

Nanoparticles in Functional Textiles

Dr. Md. Reazuddin Repon, Postdoctoral Researcher at the Textile Chemistry Group, Department of Bioproducts and Biosystems, Aalto University, has contributed as an editor to a newly published academic volume titled 鈥淣anoparticles Integrated Functional Textiles鈥.
Person standing outdoors in autumn, wearing a grey hoodie and green jacket. Trees in the background with orange leaves.
Appointments Published:

Introducing Qi Chen: Trustworthy AI requires algorithms that can handle unexpected situations

AI developers must focus on safer and fairer AI methods, as the trust and equality of societies are at stake, says new ELLIS Institute Finland principal investigator Qi Chen
A person wearing a light grey hoodie stands indoors with a brick wall and green plants in the background.
Appointments, University Published:

The research puzzle of when humans and AI don鈥檛 see eye to eye

Francesco Croce works on robustness in multi-modal foundation models