Press release -
Catalytic system turns biomass waste to renewable chemical stock
Researchers at Umeå University in Sweden, in collaboration with scientists from Finland, Vietnam, India, and Italy, have developed a catalytic system to convert lignin structures into highly valuable chemicals. This innovative technology offers promising solutions to pressing environmental and energy challenges.
As fossil fuel reserves deplete and the challenges of climate change intensify, renewable and sustainable resources are emerging as a key solution. Among these, biofuels and commodity chemicals derived from biomass, particularly lignin, have gained increasing attention.
Lignin constitutes about 30 percent of plant dry mass, with 50-70 million tons released annually, mainly as a byproduct in the paper and pulp industry. Despite its abundance, lignin’s complex structure makes it difficult to convert into valuable products, limiting its potential as a sustainable resource.
To tackle this challenge, researchers at Umeå University, Sweden, alongside scientists from Finland, Vietnam, India, and Italy, have designed a catalytic system that efficiently breaks down structures in lignin. Their results are presented in Van Minh Dinh’s doctoral thesis at the Department of Chemistry, Umeå University, Sweden.
“We first evaluate the performance of the catalytic system using lignin-model compounds” says Van Minh Dinh. “They are small molecules that closely resemble lignin’s structure, making them an ideal model for our research” he explains.
Under optimal conditions, the catalytic system selectively cleaves chemical bonds in lignin models, producing a variety of value-added products, such as hydrocarbons for jet fuel additives or oxygenates for industrial chemicals.
“An exciting aspect of our research is the catalyst’s excellent reusability” Van Minh Dinh adds. “It remains structurally stable across a broad range of test conditions, while maintaining high activity over multiple cycles.”
The research team is now focused on scaling up the catalytic system using lignin samples from around Sweden. The research has the potential to drive further innovation in biomass conversion strategies and contribute to replacing fossil fuels with renewable resources.
About the defense
On Friday, April 4, Van Minh Dinh, Department of Chemistry at Umeå University, defends his thesis titled Valorization of biomass byproducts: the potential of chitin and lignin through solid catalysts. The dissertation takes place at 9:00 a.m. in Lilla Hörsalen, KB.E3.01, KBC-huset, Umeå University. Opponent is Associate Professor Satu Ojala, from University of Oulu, Finland.
Electronic publication in Diva: https://umu.diva-portal.org/smash/record.jsf?pid=diva2%3A1943288&dswid=7237
For more information, please contact:
Van Minh Dinh, doctoral student, Department of Chemistry, Umeå University
E-mail: van.dinh@umu.se
Phone: (+46) 76 390 16 68
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Umeå University is a comprehensive university and one of Sweden’s largest higher education institutions with around 38,000 students and 4,600 staff. We have a diverse range of high-quality educational programmes and research within all disciplinary domains and the arts. The University offers world-class educational and research environments and helps expand knowledge of global significance. This is where the groundbreaking discovery was made of the CRISPR-Cas9 gene-editing tool, which was awarded the Nobel Prize in Chemistry. At Umeå University, everything is just around the corner. Our tightly knit campus makes it easy to meet, collaborate and share knowledge, something that encourages a dynamic and open culture.
