Affiliation:
1. ETH Zurich ITA‐Institut für Technologie in der Architektur Stefano‐Franscini Platz 1 Zurich CH‐8093 Switzerland
2. Empa Lerchenfeldstrasse 5 St. Gallen CH‐9014 Switzerland
Abstract
AbstractThe architecture, engineering, and construction industry is undergoing a significant shift, steering buildings away from resource‐intensive processes toward becoming instruments for climate mitigation. In this transformative landscape, integrating circular bio‐based alternatives and reducing emissions through biotechnological and enzymatic processes have significant potential. Specifically, mycelium‐bound composites have emerged as renewable alternatives for new materials and added‐value wood products. Despite their numerous advantages, integrating these materials into current engineering practices presents challenges deriving from the complex nature of the material´s production process and the transfer from the laboratory to the industrial scale. In this regard, the design and engineering of novel controlled environments are fundamental in maintaining optimal growth conditions during material production. This, in turn, influences the overall material performance and potential use in construction.