A Bio‐Inspired Perspective on Materials Sustainability
Wolfgang Wagermaier, Khashayar Razghandi, Peter FratzlAbstract
The article explores materials sustainability through a bio‐inspired lens and discusses paradigms that can reshape the understanding of material synthesis, processing, and usage. It addresses various technological fields, from structural engineering to healthcare, and emphasizes natural material cycles as a blueprint for efficient recycling and reuse. The study shows that material functionality depends on both chemical composition and structural modifications, which emphasizes the role of material processing. The article identifies strategies such as mono‐materiality and multifunctionality, and explores how responsivity, adaptivity, modularity, and cellularity can simplify material assembly and disassembly. Bioinspired strategies for reusing materials, defect tolerance, maintenance, remodeling, and healing may extend product lifespans. The principles of circularity, longevity, and parsimony are reconsidered in the context of “active materiality”, a dynamic bio‐inspired paradigm. This concept expands the traditional focus of material science from structure‐function relationships to include the development of materials capable of responding or adapting to external stimuli. Concrete examples demonstrate how bio‐inspired strategies are being applied in engineering and technology to enhance the sustainability of materials. The article concludes by emphasizing interdisciplinary collaboration as a key factor for developing a sustainable and resilient materials economy in harmony with nature's material cycles.