Issue 7, 2024

Robust myco-composites: a biocomposite platform for versatile hybrid-living materials

Abstract

Fungal mycelium, a living network of filamentous threads, thrives on lignocellulosic waste and exhibits rapid growth, hydrophobicity, and intrinsic regeneration, offering a potential means to create next-generation sustainable and functional composites. However, existing hybrid-living mycelium composites (myco-composites) are tremendously constrained by conventional mold-based manufacturing processes, which are only compatible with simple geometries and coarse biomass substrates that enable gas exchange. Here we introduce a class of structural myco-composites manufactured with a novel platform that harnesses high-resolution biocomposite additive manufacturing and robust mycelium colonization with indirect inoculation. We leverage principles of hierarchical composite design and selective nutritional provision to create a robust myco-composite that is scalable, tunable, and compatible with complex geometries. To illustrate the versatility of this platform, we characterize the impact of mycelium colonization on mechanical and surface properties of the composite. We found that our method yields the strongest mycelium composite reported to date with a modulus of 160 MPa and tensile strength of 0.72 MPa, which represents over a 15-fold improvement over typical mycelium composites, and further demonstrate unique applications with fabrication of foldable bio-welded containers and flexible mycelium textiles. This study bridges the gap between biocomposite and hybrid-living materials research, opening the door to advanced structural mycelium applications and demonstrating a novel platform for development of diverse hybrid-living materials.

Graphical abstract: Robust myco-composites: a biocomposite platform for versatile hybrid-living materials

Supplementary files

Article information

Article type
Communication
Submitted
11 Agu 2023
Accepted
02 Jan 2024
First published
17 Jan 2024
This article is Open Access
Creative Commons BY-NC license

Mater. Horiz., 2024,11, 1689-1703

Robust myco-composites: a biocomposite platform for versatile hybrid-living materials

S. C. Shen, N. A. Lee, W. J. Lockett, A. D. Acuil, H. B. Gazdus, B. N. Spitzer and M. J. Buehler, Mater. Horiz., 2024, 11, 1689 DOI: 10.1039/D3MH01277H

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