Associated projects

Develop porous carbon nanofiber mats using lignin through electrospinning, followed by carbonization.Enhance the electrochemical performance of these mats by improving their packing density and conductivity.

This project is part of the BioGlue Centre (https://www.slu.se/en/departments/forest-biomaterials-technology/bioglue-centre/), which is a co-operation between three universities and many industries aiming to have a better understanding around adhesives and bonding for wood materials in different sectors, such as furniture, construction, and packaging. In this project specifically, the aim is to map suitable and available bio-based raw

The project is about using various microscope techniques (such as light-based, electron-based, etc.) to study the penetration of various bio-based adhesives into wood, paper, etc.

Crop improvement is fundamental for a true biobased and circular economy, ensuring food security, climate neutrality and replacement of conventional energy resources. Rice is one of the major cereals as a food and fodder crop, which requires urgent scientific attention to improve yields under the challenges of biotic and abiotic stress. Moreover, rice generates 1.5

SUSBICO project combines two strong research expertise areas: biomass-derived material development in Oulu (University of Oulu is the project coordinator) and composite research in Luleå (Luleå University of Technology is a project partner). The main goal of the bilateral project is to develop novel green polyester resins that have competitive or better materials properties compared

The research topic is hornification of lignocellulosic materials, knowledge about which is highly relevant for production, recycling and resource efficiency for all paper and board materials, as well as new applications for forest-based raw materials.