Prof. Jürgen Groll is one of the driving forces behind the Würzburg Center of Polymers for Life. In this interview, he discusses the new center—and the challenges involved in 3D printing living tissue.
As part of his doctoral research, Frédéric Lapierre works on creating and improving culture media for biocementing bacteria—which could yield sustainable applications for the construction industry and environmental engineering.
SciFiMed is a multi-disciplinary project that combines fundamental immunological research with novel nanomaterial biosensor development translated into proof-of-principle diagnostics. International experts as well as biotechnology enterprises and health institutions are involved in the project.
With more than 330 million cars on European roads, millions of tons of end-of-life tires are produced each year. Researchers at FHWS are developing methods of recycling elastomers that could give these tires new life.
Scientists at the University of Bayreuth are conducting cutting-edge, interdisciplinary research in biofabrication. The high-tech processes they are developing open up new possibilities for biomedical therapies.
At the HM Hochschule München University of Applied Sciences, a model project on recycled concrete shows how demolished buildings can literally take on new forms.
At the Competence Center for Lightweight Design (LLK) at Landshut University of Applied Sciences, professors, PhD students, and laboratory staff are researching the future of lightweight design.
At the University of Bayreuth, academia and industry have partnered to form the TADFlife innovative training network. Together, they are working to develop sustainable technologies by improving the lifetime and energy efficiency of blue OLEDs.
Postdoc Chandra Macauley researches fuel cell structures at Friedrich-Alexander Universität Erlangen-Nürnberg—one of the top locations for materials science in Germany.