Affiliation:
1. Department of Materials Engineering School of Engineering and Design Technical University of Munich Boltzmannstraße 15 85748 Garching Germany
2. Center for Protein Assemblies (CPA) and Munich Institute of Biomedical Engineering (MIBE) Technical University of Munich Ernst‐Otto‐Fischer Straße 8 85748 Garching Germany
3. TUM Campus for Biotechnology and Sustainability Technical University of Munich Schulgasse 16 94315 Straubing Germany
Abstract
AbstractWet adhesion is a challenging process that requires successful interactions between the two surfaces of interest. Current adhesives may offer sufficient strength but often contain toxic components. Thus, when the field of adhesion meets bioinspiration, there is lots of potential for finding an innovative solution. Here, inspired by mucilaginous seeds and by using refined fiber structures provided by renewable materials, it is demonstrated how to build a comparably strong wet adhesive system. The process involves the controlled fibrillation of a wood surface followed by the application of a macromolecular coating employing the main component found in mucilaginous seeds. Moreover, the additional introduction of a thermo‐responsive polymer into the system allows for obtaining control over the strength and the compliance of the detachment process. Thus, this study demonstrates how combining renewable materials with a multi‐step coating process offers an environmentally friendly solution that pinpoints a promising path toward bio‐based wet adhesives.
Funder
Deutsche Forschungsgemeinschaft
Subject
Mechanical Engineering,Mechanics of Materials