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The transition to climate-friendly cities has led to a renaissance of wood as a renewable building material. To prevent severe raw material shortages in the future, the material-first utilization of wood in long-living, resource-efficient engineered wood products and constructions will be key.
The solutions to many of today’s challenges will be found at the frontier of advanced materials research and will require collaboration across synthesis, characterization, fabrication and theory. While good ideas can be generated anywhere by anyone, scientific opportunities are often concentrated among select groups. National user facilities democratize access to world-class expertise and instrumentation, acting as innovation multipliers on the scientific enterprise.
Peptides are small yet versatile building blocks of biomaterials. This Comment highlights recent progress in the design of liquid-like microdroplets, or coacervates, based on peptides and produced through liquid–liquid phase separation. This emerging platform holds promise as efficacious delivery vehicles for multi-purpose biomedical applications.
Despite concrete being the most prominent building material of the twentieth century, the cultural heritage relevance of concrete buildings and the importance of their preservation is not widely recognized. The European Union project InnovaConcrete’s purpose is to develop nanotechnology-based treatments for concrete preservation and to increase citizen awareness around the importance of concrete-based heritage.
