We develop an ultra-thin coating that is water-applicable and biodegradable, modifying only the outermost wool fibre surface to shield the attracti

The aim of the project is to develop a hydrophilic selective-permanent coating with dirt- and graffiti-repellent properties.

The formation and strong adhesion of ice to a wide variety of surfaces is a common problem in many areas of everyday life.

The aim of the project is to develop next-generation venous catheter coatings that simultaneously prevent bacterial infections and thromboembolic e

Post-operative tissue overgrowth of affected organs and adjacent tissue after surgical interventions in the course of the healing process leads to

An innovative antimicrobial finishing for textile materials based on Azetidinium-functionalized polymers was developed.

As part of the bio-based flame retardant project, it was demonstrated that a combination of phosphorus- and nitrogen-containing phosphazene cycloma

The aim of the project is to develop bio-based, isocyanate-free polyurethanes and implement them in textile coatings.

The Bio4Clean project deals with the production of sustainable functional polymers for use in detergents and cleaning agents.

The competence center Bio4MatPro "Competence Center for the Biological Transformation of Materials Science and Production Engineering" is one of tw

Electrostatic discharges caused by friction on non-conductive textiles are particularly problematic in winter when humidity is low.

Over the past ten years, 3D bioprinting has emerged as a powerful tool to fabricate human tissue models ex vivo.

BIOGEL is set up to educate young scientists to develop innovative hydrogel chemistries and systems for biomedical applications.