Press release - 21/10/2022 Carl-Zeiss-Stiftung supports research project on wood-based materials at the University of Freiburg The Carl Zeiss Foundation is funding the "DELIVER - Data-driven Engineering of Sustainable Living Materials" project at the University of Freiburg in its "CZS Wildcard" program. In the project, scientists from the Freiburg Clusters of Excellence CIBSS and livMatS will develop sustainable wood-based materials whose properties can be precisely controlled.https://www.bio-pro.de/en/activities/biological-transformation/aktuelles/carl-zeiss-stiftung-supports-research-project-wood-based-materials-university-freiburg
Press release - 21/10/2022 Carl-Zeiss-Stiftung supports research project on wood-based materials at the University of Freiburg The Carl Zeiss Foundation is funding the "DELIVER - Data-driven Engineering of Sustainable Living Materials" project at the University of Freiburg in its "CZS Wildcard" program. In the project, scientists from the Freiburg Clusters of Excellence CIBSS and livMatS will develop sustainable wood-based materials whose properties can be precisely controlled.https://www.biooekonomie-bw.de/en/articles/pm/carl-zeiss-stiftung-foerdert-forschungsvorhaben-der-universitaet-freiburg-zu-holzbasierten-werkstoffen
Press release - 10/10/2022 Recyclable food packaging: quality control for nanocoatings Across the EU, more than 300 billion items of packaging are not recycled every year because they consist of a mixture of different materials. Monomaterial packaging on the other hand is easy to recycle. However, it needs to be coated with ultra-thin barrier layers to protect delicate products just as well as compound materials do. https://www.bio-pro.de/en/activities/biological-transformation/aktuelles/recyclingfaehige-lebensmittelverpackungen-qualitaetskontrolle-von-nanobeschichtungen
Press release - 10/10/2022 Recyclable food packaging: quality control for nanocoatings Across the EU, more than 300 billion items of packaging are not recycled every year because they consist of a mixture of different materials. Monomaterial packaging on the other hand is easy to recycle. However, it needs to be coated with ultra-thin barrier layers to protect delicate products just as well as compound materials do. https://www.biooekonomie-bw.de/en/articles/pm/recyclingfaehige-lebensmittelverpackungen-qualitaetskontrolle-von-nanobeschichtungen
Press release - 04/10/2022 Microscopic Octopuses from a 3D Printer Although just cute little creatures at first glance, the microscopic geckos and octopuses fabricated by 3D laser printing in the molecular engineering labs at Heidelberg University could open up new opportunities in fields such as microrobotics or biomedicine. The printed microstructures are made from novel materials – known as smart polymers – whose size and mechanical properties can be tuned on demand and with high precision. https://www.gesundheitsindustrie-bw.de/en/article/press-release/mikroskopisch-kleine-kraken-aus-dem-3d-drucker
Press release - 06/04/2022 High-tech bridge built with flax The University of Stuttgart is contributing to innovations for climate protection as part of the EU project "Smart Circular Bridge". An old material is being rediscovered: flax has been with us for thousands of years in the form of clothing, sacks, and robust ship's ropes. Now the plant fibres are experiencing a renaissance and could become the building material of the future. https://www.biooekonomie-bw.de/en/articles/pm/high-tech-bruecke-mit-flachs-gebaut
Natural fibers in use - 15/02/2022 Sustainable reinforcement of e-bike battery cases Ansmann AG from Assamstadt provides mobile energy solutions with a focus on sustainability. The BioBattery project, which was awarded the Baden-Württemberg Bioeconomy Innovation Prize, saw Ansmann AG working with the Fraunhofer LBF in Darmstadt to develop a natural fibre reinforced plastic composite for use in e-bike battery cases.https://www.biooekonomie-bw.de/en/articles/news/sustainable-reinforcement-e-bike-battery-cases
Article - 19/09/2019 Magnetised algae as microrobots for medical and environmental purposes Algae, for most of us, is something that lives in water courses that we occasionally find unpleasant. However, that is to do them a wrong. These extremely versatile and frugal organisms might in future prove to be extremely important. Scientists at the University of Stuttgart are investigating how algae can be used as microrobots in biomedicine and environmental remediation.https://www.gesundheitsindustrie-bw.de/en/article/news/magnetisierte-algen-als-mikroroboter-fuer-medizin-und-umwelt
Article - 19/09/2019 Magnetised algae as microrobots for medical and environmental purposes Algae, for most of us, is something that lives in water courses that we occasionally find unpleasant. However, that is to do them a wrong. These extremely versatile and frugal organisms might in future prove to be extremely important. Scientists at the University of Stuttgart are investigating how algae can be used as microrobots in biomedicine and environmental remediation.https://www.biooekonomie-bw.de/en/articles/news/magnetisierte-algen-als-mikroroboter-fuer-medizin-und-umwelt
Dossier - 31/03/2014 Peptides diverse molecules of life https://www.gesundheitsindustrie-bw.de/en/article/dossier/peptides-diverse-molecules-of-life