Press release - 25/04/2024 Diamond dust shines bright in Magnetic Resonance Imaging An unexpected discovery surprised a scientist at the Max Planck Institute for Intelligent Systems in Stuttgart: nanometer-sized diamond particles, which were intended for a completely different purpose, shone brightly in a magnetic resonance imaging experiment – much brighter than the actual contrast agent, the heavy metal gadolinium. Could diamond dust one day become a novel contrast agent used for MRI? https://www.gesundheitsindustrie-bw.de/en/article/press-release/diamond-dust-shines-bright-magnetic-resonance-imaging
Press release - 18/04/2024 Collagen: Researchers at the NMI decipher how it works in medical treatment Collagen has been used in ophthalmology since the 1990s, particularly in the treatment of corneal defects. However, why and how this technique works was only known in theory. Researchers at the NMI Natural and Medical Sciences Institute in Reutlingen led by Lu Fan have found the necessary evidence and can now reliably explain how this technique works.https://www.gesundheitsindustrie-bw.de/en/article/press-release/collagen-researchers-nmi-decipher-how-it-works-medical-treatment
Alternative construction materials: mycelium-based materials - 20/12/2023 Using fungi to create sustainable and economical mycelium-based materials Most of us see fungi as just food - and possibly pathogens. This is a mistake, because these amazing organisms are capable of much more: they grow on plant residues of all kinds, forming a dense and interconnected structure as they spread. The resulting material can be moulded into desired shapes and be turned into new sustainable and economically attractive products such as leather and polystyrene substitutes or building materials.https://www.biooekonomie-bw.de/en/articles/news/using-fungi-create-sustainable-and-economical-mycelium-based-materials
Sustainable binder alternative - 18/12/2023 Copied from insects: new biological wood binder under development Plastic is all around us; and unfortunately, it is not going away any time soon. The search for more sustainable solutions is fully underway. However, binders that degrade only with difficulty or not at all are still used to bond natural materials such as wood and straw - not yet truly environmentally friendly. Fraunhofer researchers are working on an insect-inspired wood binder that makes bonded wood products both resistant and biodegradable.https://www.biooekonomie-bw.de/en/articles/news/copied-insects-new-biological-wood-binder-under-development
Press release - 27/10/2023 Lignin coating makes Geotextiles made from environmentally friendly natural fibers durable Textiles are a given in civil engineering. Until now, textiles made of resistant synthetic fibers have been used for this purpose, having a long lifetime. For some applications, however, it would not only be sufficient but even desirable for the auxiliary textile to degrade when it has done its job. Natural fibers, in contrast, often decompose too quickly. The DITF are developing a bio-based protective coating that extends their service life.https://www.biooekonomie-bw.de/en/articles/pm/lignin-coating-makes-geotextiles-made-environmentally-friendly-natural-fibers-durable
Press release - 26/10/2023 Innovative research aims to improve wound healing and cancer therapy Jun.-Prof. Dr. Priscilla Briquez, junior professor at the Department of General and Visceral Surgery at the Freiburg University Medical Center and member of the Medical Faculty at the University of Freiburg, has received a European Research Council (ERC) Starting Grant from the European Commission. Her DRESSCODE project will receive a total of 1.5 million euros funding for five years.https://www.gesundheitsindustrie-bw.de/en/article/press-release/innovative-forschung-soll-wundheilung-und-krebstherapie-verbessern
Microorganisms degrade biobased turf infill - 17/10/2023 Eco-friendly artificial turf: a sports pitch that’s good for people and the environment There are thousands of artificial turf pitches in Germany. They are extremely practical, but often not at all environmentally friendly. When it rains or the pitch is used, plastic particles from the rubber granules can be released into the envronment, where they remain. Researchers at the University of Stuttgart along with the company TECNARO are now developing an artificial turf with an infill that biodegrades as soon as it leaves the pitch.https://www.biooekonomie-bw.de/en/articles/news/eco-friendly-artificial-turf-sports-pitch-s-good-people-and-environment
Preventing waste from instant meals - 05/10/2023 EDGGY: edible packaging film made from eggshell waste Many instant meals such as ramen soups have both a protective outer packaging and individual ingredients in small plastic sachets. To prevent this environmentally harmful waste, five students at the University of Hohenheim have developed a sustainable film based on eggshells and plant proteins that dissolves in hot water and is edible.https://www.biooekonomie-bw.de/en/articles/news/edggy-edible-packaging-film-made-eggshell-waste
Help with osteoarthritis of the knee - 27/09/2023 Individualised knee-joint cartilage: artificial tissue that fits Knee joints are subject to considerable stress throughout our lives. The natural shock absorber cartilage wears out over a lifetime, so many people develop knee osteoarthritis. Treatment is available in the form of artificial cartilage. This "off-the-shelf" tissue often does not grow well. Researchers are developing an individualised cartilage replacement made from biomaterial that is produced by 3D printing based on MRI images.https://www.gesundheitsindustrie-bw.de/en/article/news/individualised-knee-joint-cartilage-artificial-tissue-fits
Project BlindZero - 03/08/2023 Hope for patients with eye diseases: human cornea from 3D printers Thousands of cornea transplants are performed every year. However, donors are rare and the procedure is not always without complications. Researchers at the University of Heidelberg are developing an innovative technique in the project BlindZero. It involves ‘printing’ human corneas directly onto patients’ eyes using 3D bioprinting. The reprogrammed genetically engineered cells used for this purpose are not expected to cause a rejection reaction.https://www.gesundheitsindustrie-bw.de/en/article/news/hope-patients-eye-diseases-human-cornea-3d-printers
Press release - 27/07/2023 Self-healing plastic becomes biodegradable Konstanz chemists develop mineral plastics with numerous positive properties from sustainable basic building blocks and, together with biologists, demonstrate the material's excellent microbiological degradability.https://www.biooekonomie-bw.de/en/articles/pm/Self-healing-plastic-becomes-biodegradable
Press release - 27/07/2023 Materials Research: Biocatalytic Foams of Tremendous Stability and Activity Industrial biocatalysis with enzymes is deemed to be a “game changer” in the development of a sustainable chemical industry. Enzymes can be used to synthesize an impressive range of complex molecules. Researchers of KIT have now developed a new class of materials by producing enzyme foams of tremendous stability and activity. The researchers have already filed a patent application on the process to produce enzyme foams.https://www.biooekonomie-bw.de/en/articles/pm/materials-research-biocatalytic-foams-tremendous-stability-and-activity
Innovative materials - 14/06/2023 Reinventing ‘wood’ with programmable bacteria Conserving wood by producing furniture and other objects from wood-based materials with the help of microorganisms? That is exactly what a team of researchers from the University of Freiburg and the Leibniz Institute for New Materials (INM) in Saarbrücken is working on in the DELIVER project. The aim is to create a database of materials with a broad range of controllable properties for various applications that can be produced from wood waste.https://www.biooekonomie-bw.de/en/articles/news/reinventing-wood-programmable-bacteria
3D-Thermocell project - 17/05/2023 Paper instead of plastic: sustainable packaging with a good conscience Replacing plastic – for example in packaging – is not that easy but nevertheless urgently needed. In the 3D-Thermocell project, researchers at DHBW Karlsruhe are currently developing new plastic substitute products made of thermoformable paper as a renewable resource, which should be cheap and light and easy to dispose of along with waste paper. The characterisation and application of demonstration models will start soon.https://www.biooekonomie-bw.de/en/articles/paper-instead-plastic-sustainable-packaging-good-conscience
Press release - 16/05/2023 Biocomposite at the Venice Architecture Biennale This year's Venice Architecture Biennale sees itself as a "Laboratory of the Future". Bio-composites are not just dreams of the future in architecture. The German Institutes of Textile and Fiber Research (DITF) have developed a sustainable material for support profiles and connecting nodes, which will be on display at Palazzo Mora during the Biennale from May 20 to November 26. https://www.biooekonomie-bw.de/en/articles/pm/bioverbundwerkstoff-auf-der-architektur-biennale-venedig
Press release - 03/05/2023 Organic-based coating with innovative functional properties is suitable for packaging and food products Sustainability is a major challenge in the food and packaging industry. Plastic packaging is being replaced by organic-based and biodegradable materials, but it must still fulfill high functional requirements. A team of researchers at the University of Hohenheim has developed a new coating system that is both water-impermeable, heat-resistant, and mechanically durable as well as being suitable for consumption, and biodegradable at the same time.https://www.biooekonomie-bw.de/en/articles/pm/organic-based-coating-innovative-functional-properties-suitable-packaging-and-food-products
"Programmable" polymer materials - 24/04/2023 Medicine of the future: intelligent 4D polymers from the printer It is impossible to imagine medicine without 3D printing, which can be used to make implants or for culturing cells and tissues. It is now possible for 3D objects to be given an added dimension, namely an ability to make simple autonomous movements, by changing their size. Researchers at Heidelberg University have been able to produce microscopically small 4D structures from intelligent polymers that can be tailored to individual requirements.https://www.gesundheitsindustrie-bw.de/en/article/news/medicine-future-intelligent-4d-polymers-printer
Press release - 30/03/2023 Green composite material made from flax and chitosan Composite materials provide stability in aircraft parts, sports equipment, and everyday household items. However, most of these materials have a poor carbon footprint and are not naturally degradable. A more sustainable alternative has been developed by a team from the University of Stuttgart. This completely bio-based composite material is made of flax fibers and the biopolymer chitosan.https://www.biooekonomie-bw.de/en/articles/pm/green-composite-material-made-flax-and-chitosan
Valorization of biological materials - 12/01/2023 ValBio-Urban brings bioeconomy research to users Reducing carbon dioxide emissions and the capture and utilization of CO2 are important steps towards achieving a climate-neutral and sustainable economy. Accordingly, as part of the ValBio-Urban research project, an interdisciplinary team from the University of Stuttgart is developing bioeconomic approaches to solutions that will be implemented with companies from Baden-Württemberg.https://www.biooekonomie-bw.de/en/articles/news/valbio-urban-brings-bioeconomy-research-users
Press release - 20/12/2022 Strong and biodegradable A polyester plastic of great mechanical stability, which is also easily recyclable and even compostable: Stefan Mecking, chemist at the University of Konstanz, and his research group present a new material.https://www.bio-pro.de/en/activities/biological-transformation/aktuelles/strong-and-biodegradable
Press release - 20/12/2022 Strong and biodegradable A polyester plastic of great mechanical stability, which is also easily recyclable and even compostable: Stefan Mecking, chemist at the University of Konstanz, and his research group present a new material.https://www.biooekonomie-bw.de/en/articles/pm/strong-and-biodegradable
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 - 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
Press release - 21/03/2022 BMBF funds Heidelberg Junior Research Group for 3D Bioprinting Project Junior Professor Dr Daniela Duarte Campos has been awarded a substantial grant from the Federal Ministry of Education and Research (BMBF). She and her junior research group are investigating bioprinting for tissue and organ engineering at the Center for Molecular Biology of Heidelberg University and at the “3D Matter Made to Order” Cluster of Excellence, a collaboration between Ruperto Carola and Karlsruhe Institute of Technology (KIT).https://www.gesundheitsindustrie-bw.de/en/article/press-release/bmbf-funds-heidelberg-junior-research-group-3d-bioprinting-project