3D printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions.
There is an urgent need to change the way society produces and fabricates materials. Among the sustainable processes developed to date, 3D printing enables limited generation of waste. Living materials that are grown by microorganisms is also an interesting approach to fabricate biodegradable materi...
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sg-ntu-dr.10356-1721302023-11-25T16:48:21Z 3D printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions. Soh, Eugene Teoh, Jia Heng Leong, Brendon Xing, Tingrong Le Ferrand, Hortense School of Mechanical and Aerospace Engineering School of Materials Science and Engineering Singapore Centre for 3D Printing Engineering::Manufacturing Mycelium 3D Printing Agar Engineered Living Materials Sustainable Development Goals Waste There is an urgent need to change the way society produces and fabricates materials. Among the sustainable processes developed to date, 3D printing enables limited generation of waste. Living materials that are grown by microorganisms is also an interesting approach to fabricate biodegradable materials sustainably. 3D printing of living materials is nevertheless challenged by a high barrier to entry due to stringent sterilization requirements. In this study, the authors use a waste ingredient, coffee grounds, to fabricate mycelium materials using 3D printing in ambient conditions. Mycelium is the vegetative parts of the fungi which forms an interconnected network, covering air-material interfaces with a dense skin. An agar gel was chosen as the printing medium and supplemented with coffee grounds, malt and peptone to double the growth rate and density of the mycelium by Pleurotus ostreatus. Despite the jelly nature of the agar-based ink, 3D printing with a resolution of about 1 mm can be achieved using direct ink writing. The growth of the mycelium embedded in the ink was studied over 28 days and demonstrated that the mycelium was efficient in reinforcing the printed part, doubling its compressive modulus up to 60 kPa. Furthermore, the objects created by this ink exhibit self-healing and can be used for gluing components together. The approach taken in this work could be adapted by the user to accommodate for functionality requirements and the available local resources, thereby addressing some of the most pressing sustainable development goals. National Research Foundation (NRF) Submitted/Accepted version The authors would like to acknowledge funding from the National Research Foundation of Singapore and ETH Zurich, Switzerland with the grant Future Cities Laboratory Global, Module A4: Mycelium digitalization. 2023-11-24T07:48:52Z 2023-11-24T07:48:52Z 2023 Journal Article Soh, E., Teoh, J. H., Leong, B., Xing, T. & Le Ferrand, H. (2023). 3D printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions.. Materials & Design, 236, 112481-. https://dx.doi.org/10.1016/j.matdes.2023.112481 0264-1275 https://hdl.handle.net/10356/172130 10.1016/j.matdes.2023.112481 236 112481 en Future Cities Laboratories Global Materials & Design © 2023 The Author(s). Published by Elsevier Ltd. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1016/j.matdes.2023.112481. application/pdf |
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Engineering::Manufacturing Mycelium 3D Printing Agar Engineered Living Materials Sustainable Development Goals Waste |
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Engineering::Manufacturing Mycelium 3D Printing Agar Engineered Living Materials Sustainable Development Goals Waste Soh, Eugene Teoh, Jia Heng Leong, Brendon Xing, Tingrong Le Ferrand, Hortense 3D printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions. |
| description |
There is an urgent need to change the way society produces and fabricates materials. Among the sustainable processes developed to date, 3D printing enables limited generation of waste. Living materials that are grown by microorganisms is also an interesting approach to fabricate biodegradable materials sustainably. 3D printing of living materials is nevertheless challenged by a high barrier to entry due to stringent sterilization requirements. In this study, the authors use a waste ingredient, coffee grounds, to fabricate mycelium materials using 3D printing in ambient conditions. Mycelium is the vegetative parts of the fungi which forms an interconnected network, covering air-material interfaces with a dense skin. An agar gel was chosen as the printing medium and supplemented with coffee grounds, malt and peptone to double the growth rate and density of the mycelium by Pleurotus ostreatus. Despite the jelly nature of the agar-based ink, 3D printing with a resolution of about 1 mm can be achieved using direct ink writing. The growth of the mycelium embedded in the ink was studied over 28 days and demonstrated that the mycelium was efficient in reinforcing the printed part, doubling its compressive modulus up to 60 kPa. Furthermore, the objects created by this ink exhibit self-healing and can be used for gluing components together. The approach taken in this work could be adapted by the user to accommodate for functionality requirements and the available local resources, thereby addressing some of the most pressing sustainable development goals. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Soh, Eugene Teoh, Jia Heng Leong, Brendon Xing, Tingrong Le Ferrand, Hortense |
| format |
Article |
| author |
Soh, Eugene Teoh, Jia Heng Leong, Brendon Xing, Tingrong Le Ferrand, Hortense |
| author_sort |
Soh, Eugene |
| title |
3D printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions. |
| title_short |
3D printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions. |
| title_full |
3D printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions. |
| title_fullStr |
3D printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions. |
| title_full_unstemmed |
3D printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions. |
| title_sort |
3d printing of mycelium engineered living materials using a waste-based ink and non-sterile conditions. |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172130 |
| _version_ |
1783955645709418496 |