Summary
Aqueous particle dispersions are elemental to many aspects of every-day life, from food and pharmaceuticals to construction materials. However, today’s dispersion science faces a grand challenge in developing colloidal particles with outstanding functionality in a sustainable manner. To enable society’s transformation from oil-based economy to bioeconomy, there is an urgent need to develop sophisticated biocompatible materials, such as particle dispersions, from biomass-derived precursors through sustainable conversion routes. Current bio-based alternatives to synthetic dispersions are entering the market rather slowly, primarily because key technologies to achieve superior functionality to justify industrial adaptation of biobased polymers are lacking. I will promote the findings of my fundamental ERC CoG project on hierarchical particles from two of the most abundant, but underused biopolymers: lignin and hemicelluloses. PARTIPERSION will establish a green route to sophisticated hierarchical architectures - hemicellulose-coated lignin particles - utilizing abundant bioresources. The project will lead to a breakthrough in colloid and interface science and contribute to more sustainable use of Earth’s resources.
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| Web resources: | https://cordis.europa.eu/project/id/101189399 |
| Start date: | 01-01-2025 |
| End date: | 30-06-2026 |
| Total budget - Public funding: | - 150 000,00 Euro |
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Original description
Aqueous particle dispersions are elemental to many aspects of every-day life, from food and pharmaceuticals to construction materials. However, today’s dispersion science faces a grand challenge in developing colloidal particles with outstanding functionality in a sustainable manner. To enable society’s transformation from oil-based economy to bioeconomy, there is an urgent need to develop sophisticated biocompatible materials, such as particle dispersions, from biomass-derived precursors through sustainable conversion routes. Current bio-based alternatives to synthetic dispersions are entering the market rather slowly, primarily because key technologies to achieve superior functionality to justify industrial adaptation of biobased polymers are lacking. I will promote the findings of my fundamental ERC CoG project on hierarchical particles from two of the most abundant, but underused biopolymers: lignin and hemicelluloses. PARTIPERSION will establish a green route to sophisticated hierarchical architectures - hemicellulose-coated lignin particles - utilizing abundant bioresources. The project will lead to a breakthrough in colloid and interface science and contribute to more sustainable use of Earth’s resources.Status
SIGNEDCall topic
ERC-2024-POCUpdate Date
18-10-2024
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