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Persistent Identifier
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perma:LIST.SYXAI2 |
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Publication Date
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2025-09-26 |
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Title
| SuperBark - KPI & Impact Questionnaire 2024 [* Cross-Reference *] |
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Other Identifier
| DataCite: https://doi.org/10.5281/zenodo.16882011 |
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Author
| Borrega, Marc (VTT Technical Research Centre of Finland) - ORCID: 0000-0002-4990-214X
Spönla, Elisa (VTT Technical Research Centre of Finland) - ORCID: 0000-0002-1134-5376
Schmiedl, PhD, Detlef (Fraunhofer Institute for Chemical Technology) - ORCID: 0000-0001-7335-6145
Forsthuber, Boris (Holzforschung Austria) - ORCID: 0000-0002-7753-9990
Isigonis, Panagiotis (Luxembourg Institute of Science and Technology) - ORCID: 0000-0002-8404-7708
Turpeinen, Laura (CLIC Innovation Oy) |
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Point of Contact
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Use email button above to contact.
LIST QDKM (LIST) |
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Description
| Annual questionnaire about KPIs and Impact from the SuperBark project. (2025-08-15)
***This entry has been automatically imported via Datacite by LIST harvest scripts. Please refer to https://doi.org/10.5281/zenodo.16882011 for the original and latest version of the dataset and data downloads*** (2025-08-25)
(Original abstract:)
Adhesives and coatings are an integral part of consumer products used in our daily lives. Today, the vast majority of adhesives and coatings on the market are formulated using fossil-based and harmful chemicals, which conflicts with the EU-level goal of reducing our dependency on non-renewable resources and protecting the health and well-being of citizens and the environment. The SuperBark project will exploit natural components in softwood bark, a major industrial side stream of forest industry, to develop 95% bio-based adhesives and coatings for wood panels and packaging paper with the functional, safety, and sustainability standards required by the industry and consumers. The project partners will deliver this through 1) extraction of polyphenols from bark using a novel alkaline fractionation technology and conversion of cellulose-rich bark residues into cellulose nanofibrils (CNF) 2) development of adhesive and coating formulations using bark polyphenols and CNF that meet technical requirements and build on Safe and Sustainable by Design principles set out by the JRC and 3) combination of digital technologies in process design, system dynamics modelling, and data analysis to accelerate the adhesive and coating developments and evaluate technical, socio-economic and market opportunities. The project findings will be disseminated to scientists, policy makers, society, and industrial actors in relevant sectors, including furniture, construction, transportation and packaging, to raise awareness on the benefits of the adhesives and coatings developed from bark components. The exploitation of results from SuperBark will have a measurable economic impact on the consortium companies and will also translate into clear environmental and health impacts to the society, in alignment to the objectives set in the CBE JU annual work program. |
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Subject
| Agricultural Sciences; Engineering; Physics |
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Keyword
| packaging
wood construction
forest industry
bark
alkaline extraction
plywood
particleboard
MDF
barrier coating
digital technologies
zero waste
circularity
sustainability
safety |
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Related Publication
| References: (HasVersion) 10.5281/zenodo.16882012 https://doi.org/10.5281/zenodo.16882012 |
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Funding Information
| European Commission: 101112447 ("Safe, sustainable and high performance adhesives and coatings from industrial softwood bark")
European Commission: Funding Scheme: HORIZON-JU-RIA - HORIZON JU Research and Innovation Actions |
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Deposit Date
| 2025-08-15 |
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Data Type
| Text |
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Related Material
| See also Borrega, Marc; Rahikainen, Jenni; Schmiedl, PhD, Detlef; Forsthuber, Boris; Isigonis, Panagiotis; Turpeinen, Laura, 2025, "SuperBark - KPI & Impact Questionnaire 2023 [* Cross-Reference *]", https://datashare.private.list.lu/citation?persistentId=perma:LIST.OBGOIN, The LIST Data Repository, V1 |
